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【目的】明确黑龙江省水田稻稗(Echinochloa oryzicola Vasing)对丁草胺的抗药性水平以及对其他细胞分裂抑制剂的交互抗药性水平。【方法】采用琼脂法和整株盆栽法测定了黑龙江省14个地区53个田块的稻稗对丁草胺的抗药性以及对其他3种细胞分裂抑制剂丙草胺、苯噻酰草胺和莎稗磷的交互抗性。【结果】琼脂法检测出庆安03、东京城镇02等4个稻稗生物型对丁草胺产生了中等水平抗性,抗性指数为12.92~26.03,占供试稻稗生物型的7.55%;兴隆镇03、阿城04等4个稻稗生物型对丁草胺产生了低等水平抗性,抗性指数为6.63~8.86,占供试稻稗生物型的7.55%;庆安01、汤原01等5个稻稗生物型对丁草胺敏感性下降,抗性指数为3.18~4.84,占供试稻稗生物型的9.43%;其余阿城02、尚志02等40个稻稗生物型对丁草胺表现敏感,抗性指数均小于3,占供试稻稗生物型的75.47%。选取上述测定结果当中抗性最高的两个生物型,使用整株盆栽法进行对丁草胺的抗性水平验证。发现庆安03和东京城镇02同样产生了中等水平抗性,抗性指数分别为16.78和13.27;同时测定两个抗性生物型对丙草胺、苯噻酰草胺和莎稗磷3种细胞分裂抑制剂的交互抗性,结果显示,庆安03稻稗生物型对丁草胺和丙草胺产生了交互抗性;东京城镇02稻稗生物型对丁草胺、丙草胺和莎稗磷产生了交互抗性。【结论】黑龙江省部分地区稻稗对丁草胺产生了抗药性,且对丙草胺和莎稗磷产生了交互抗性。 相似文献
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本文介绍了丁草胺和扑草净混配制剂的气相色谱分析方法。选用5%OV-17/ChromsorbW-HP(60~80目)色谱柱,以三唑酮为内标物进行定量分析测定,该方法简单、快速、准确、适用。结果表明丁草胺和扑草净的标准偏差分别为0.05和0.03;变异系数分别为0.28%和0.94%;平均回收率分别为99.54%和99.71%;线性回归系数分别为0.9993和0.9997。 相似文献
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建立气相色谱-氮磷检测法测定玉米中除草剂莠去津、乙草胺和丁草胺残留量的分析方法。玉米籽粒用乙腈提取,过中性氧化铝柱净化处理,用GC-FTD检测。在0.01、0.05和0.5 mg/kg 3个添加水平下,莠去津、乙草胺和丁草胺的平均添加回收率分别为84%~105%、81%~100%、87%~103%,相对标准偏差分别为1.0%~3.5%、1.1%~5.2%、3.7%~4.4%,莠去津、乙草胺和丁草胺在0.01~2.0 mg/L范围内呈良好的线性关系,最低检测浓度分别为0.005、0.01、0.01 mg/kg。该方法简单、灵敏、可靠,可应用于玉米中莠去津、乙草胺和丁草胺残留量的测定。 相似文献
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黑龙江省稻稗对丁草胺的抗性测定及交互抗性的研究 总被引:1,自引:0,他引:1
【目的】明确黑龙江省水田稻稗(Echinochloa oryzicola Vasing)对丁草胺的抗药性水平以及对其他细胞分裂抑制剂的交互抗药性水平。【方法】采用琼脂法和整株盆栽法测定了黑龙江省14个地区53个田块的稻稗对丁草胺的抗药性以及对其他3种细胞分裂抑制剂丙草胺、苯噻酰草胺和莎稗磷的交互抗性。【结果】琼脂法检测出庆安03、东京城镇02等4个稻稗生物型对丁草胺产生了中等水平抗性,抗性指数为12.92~26.03,占供试稻稗生物型的7.55%;兴隆镇03、阿城04等4个稻稗生物型对丁草胺产生了低等水平抗性,抗性指数为6.63~8.86,占供试稻稗生物型的7.55%;庆安01、汤原01等5个稻稗生物型对丁草胺敏感性下降,抗性指数为3.18~4.84,占供试稻稗生物型的9.43%;其余阿城02、尚志02等40个稻稗生物型对丁草胺表现敏感,抗性指数均小于3,占供试稻稗生物型的75.47%。选取上述测定结果当中抗性最高的两个生物型,使用整株盆栽法进行对丁草胺的抗性水平验证。发现庆安03和东京城镇02同样产生了中等水平抗性,抗性指数分别为16.78和13.27;同时测定两个抗性生物型对丙草胺、苯噻酰草胺和莎稗磷3种细胞分裂抑制剂的交互抗性,结果显示,庆安03稻稗生物型对丁草胺和丙草胺产生了交互抗性;东京城镇02稻稗生物型对丁草胺、丙草胺和莎稗磷产生了交互抗性。【结论】黑龙江省部分地区稻稗对丁草胺产生了抗药性,且对丙草胺和莎稗磷产生了交互抗性。 相似文献
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除草剂对土壤温室气体排放的影响 总被引:2,自引:2,他引:2
试验设对照、尿素、尿素+草甘膦和尿素+丁草胺4个处理,尿素氮用量为200mg·kg-1干土,除草剂用量为10mg有效成分·kg-1干土。在实验室恒温培养条件下,研究除草剂对菜田土壤温室气体排放的影响。结果表明,菜田土壤中施用氮肥显著增加了温室气体N2O、CO2和CH4的排放。尿素氮肥中添加草甘膦显著抑制N2O、CO2的排放,分别比尿素处理降低48.4%和20.2%;添加丁草胺显著抑制N2O排放,比尿素处理降低23.2%,对CO2排放略有减少但不显著;草甘膦和丁草胺对CH4排放都无明显影响。这说明除草剂对土壤温室气体的排放具有显著影响,但不同除草剂品种的效应也存在明显差异。因此,在农田温室气体排放估算时应考虑除草剂的施用对温室气体减排所产生的效果。 相似文献
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除草剂安全剂3-二氯乙酰基-2,5-二甲基-2-乙基-1,3-噁唑烷对丁草胺解毒效果研究 总被引:4,自引:2,他引:4
张金艳 《黑龙江八一农垦大学学报》2004,16(3):78-81
本文主要采用室内生物测定的方法,通过对小麦生理指标——株高的测定,研究了除草剂安全剂3-二氯乙酰基-2,5-二甲基-2-乙基-1,3-噁唑烷保护小麦免受除草剂丁草胺在不同浓度时的伤害。结果表明:当安全剂与丁草胺按一定浓度配比混合,对小麦有较好的保护效果,保护率可达60%~170%。 相似文献
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Gobi?MuthukaruppanEmail author Suman?Janardhanan Ganesan?Vijayalakshmi 《Journal of Soils and Sediments》2005,5(2):82-86
Goal, Scope and Background With the advent of the Green Revolution, there has been a quantum leap in the use of synthetic herbicides and pesticides throughout the world to sustain high-yielding crop varieties. Continuous use of these synthetic chemicals leads to loss of soil fertility and soil organisms. Histopathological studies may signal a damaging effect of organisms resulting from prior or ongoing exposure to toxic agents. A large number of studies have reported general histological changes in earthworms. A fewer studies have reported more specific types of histopathological studies in Eisenia foetida, Dendrodrilus rubidus, Lumbricus terrestris, Lumbricus rubellus and Octolasium transpandanum. However, no reports are available on Perionyx sansibaricus. The aim of the present study is
(i) to determine the sublethal effects of the herbicide Butachlor on Perionyx sansibaricus on growth and cocoon production,
(ii) to evaluate the histological changes in the exposed worms.Methods The test substrate, namely powdered, dried cow dung, was contaminated with 0.0657, 0.1315 and 0.1973 mg kg–1 of Butachlor, and a control was maintained. Four groups of each 10-test species of Perionyx sansibaricus were used per concentration level (control, 0.0657, 0.1315 and 0.1973 mg kg–1). Various life history parameters such as biomass, cocoon production and histological changes were measured.Results Worm growth was observed at various exposures over 60 days. While exposing the earthworm to the herbicide, no mortality was observed, not even at a higher dose. At the end of the experiment, the control group had a mean biomass of 0.0831±0.00 mg and, in the exposed group, at herbicide concentrations of 0.1973, 0.1315 and 0.0657 mg kg–1, the mean biomass was found to be 0.0497±0.00 mg, 0.0628±0.00 mg and 0.0781±0.00 mg, respectively. The mean earthworm biomass was found to be decreased with increasing herbicide concentration. Similarly, cocoon production was also reduced by the increasing herbicide concentration. All earthworms in the exposed group were found to have glandular cell enlargement and to be vacuolated. Conclusion The results clearly indicate that Butachlor can retard the growth and cocoon production in Perionyx sansibaricus. The effect of the herbicide Butachlor can be assessed by the histological observation of the intestinal region, as evidenced by glandular cell enlargement at all the exposed concentrations, which may massively affect food intake and which in turn may indirectly inhibit the earthworm reproductive capacity.Recommendation and Outlook Risk assessment is normally aimed at the protection of human health and the ecosystem, and the interrelationship of these two areas of protection is easy to perceive. The use of earthworms in risk assessment is to obtain more information on environmental quality and ensure environmental safety. There is an urgent need to test the chemicals causing toxicity to earthworms, because earthworms play a major role in soil fertility as well as acting as a transferring route from the soil to the terrestrial ecosystem. 相似文献
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作物种类对根际土壤中丁草胺降解的影响 总被引:6,自引:0,他引:6
研究了根际和非根际土壤中除草剂丁草胺的降解。结果表明,棉花、水稻、小麦和玉米的种植明显促进丁草胺的降解,15 mg/kg丁草胺的降解半衰期缩短26.6%~57.2%,这种促进作用与作物种类有关,玉米、小麦、水稻、棉花依次增强。50 mg/kg丁草胺的降解有所受抑制,但作物种植仍显示良好的促进作用。作物根际丁草胺降解菌的测定结果显示,根际土壤中丁草胺降解菌的数量大于非根际土壤,作物种植对丁草胺降解的促进作用源于根际丰富的降解菌。 相似文献