Поисковый запрос: (<.>S=ДИКЛОФОП<.>) |
Общее количество найденных документов : 18
Показаны документы с 1 по 18
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1.
| Shimabukuro Richard H. Effect of diclofop-methyl and 2,4-D on transmembrane proton gradient: a mechanism for their antagonistic interaction // Physiol. plant., 1989. Vol. 77, N 1.-С.107-114
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2.
| Effect of different levels of mannitol-induced water stress on the tolerance of cultivated oat (Avena sativa L.) to diclofop-methyl // Weed Res., 1990. Vol. 30, N 3.-С.171-179
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3.
| Ye J. Enantioselective physiological effects of the herbicide diclofop on cyanobacterium Microcystis aeruginosa // Environ. Sci. and Technol., 2013. Vol. 47, N 8.-С.3893-3901
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4.
| The effects of different external nitrate concentrations on growth of Avena sativa cv. Amuri treated with diclofopmethyl // Ann. Appl. Biol., 1989. Vol. 114, N 2.-С.339-348
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5.
| McMullan P.M. Effects of diclofop and HOE-6001 on amylolytic enzyme activities of malt // Canad. J. Plant Sci., 1992. Vol. 72, N 2.-С.435-438
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6.
| DiTomaso Joseph M. Membrane response to diclofop acid is pH dependent and is regulated by the protonated form of the herbicide in roots of pea and resistant and susceptible rigid ryegrass // Plant Physiol., 1993. Vol. 102, N 4.-С.1331-1336
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7.
| Shimabukuro Richard H. Metabolism of diclofop-methyl in susceptible and resistant biotypes of Lolium rigidum // Pestic. Biochem. and Physiol., 1991. Vol. 39, N 3.-С.251-260
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8.
| Zimmerlin Aryl hydroxylation of the herbicide diclofop by a wheat cytochrome P-450 monooxygenase: substrate specificity and physiological activity // Plant Physiol., 1992. Vol. 100, N 2.-С.874-881
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9.
| Достижения в исследованиях по механизмам действия и экологического воздействия гербицида диклофоп-метила // Nongyaoxue xuebao, 2008. Vol. 10, N 4.-С.383-391
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10.
| Singh Evaluation of isoproturon resistant Phalaris minor against diclofop-methyl and fenoxaprop-P-ethyl // Ann. Appl. Biol., 1996. Vol. 126, Suppl..-С.54-55
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11.
| 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. Agr. and Food Chem., 1997. Vol. 45, N 8.-С.3269-3275
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12.
| Evenson Kimberly J. Purification and characterization of acetyl-coenzyme A carboxylase from diclofop-resistant and -susceptible Lolium multiflorum // Plant Physiol., 1994. Vol. 105, N 2.-С.671-680
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13.
| Headley John V. Tandem mass spectrometry of herbicide residues in lipid-rich tissue // Anal. Chem., 1995. Vol. 67, N 23.-С.4349-4353
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14.
| Cai Enironmental significance of the diclofop-methyl and cyclodextrin inclusion complexes // J. Environ. Sci. and Health. B, 2006. Vol. 41, N 7.-С.1115-1129
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15.
| Maneechote A diclofop-methyl-resistant Avena sterilis biotype with a herbicide-resistant acetyl-coenzyme A carboxylase and enhanced metabolism of diclofop-methyl // Pestic. Sci., 1997. Vol. 49, N 2.-С.105-114
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16.
| Dixon J. Possible herbicide: ozone pollution interactions in United Kingdom crops // Brighton Grop Prot. Conf.: Weeds, 1993. -Farnham, 1993, Vol. II.-С.629-630
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17.
| Kobek K. Fatty-acid biosynthesis in isolated etioplasts and its inhibition by herbicides // Brighton Crop Prot. Conf.- eecls, 1989. -Farnham, 1989.-С.471-478
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18.
| De Prado R.A. Is diclofop resistance in Alopecurus myosuroides associated with an altered effect on the plasma membrane electrogenic potential? // Brighton Crop Prot. Conf. "Weeds". -Farnham, 1997, Vol. 2.-С.807-812
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