研究目的为了控制农田杂草,加速土壤残留农药降解,生产无公害农产品是非常重要的。
OBJECTIVE in order to control weeds in field and quicken degradation of soil rudimental pesticide, it is very important to produce non-public farm products.
结果表明,土壤有机质、土壤温度和农药浓度对阿维菌素的降解有较大影响,这可能和土壤微生物有关。
The result shows that soil organic matter, soil temperature and pesticide concentration can obviously affect Abamectin degradation, maybe which contributes to microorganism in soil.
有机磷农药的生物降解及其污染水体、土壤的生物修复技术是目前的研究热点。
Biodegradation of organophosphate pesticides and bioremediation of polluted water and soil are the main focus of current research.
光化学反应在土壤中的农药的降解方面的作用还没有确定。
The role of photochemical reactions in soil pesticide degradation remains uncertain.
微生物修复技术是利用微生物的生命活动对有机农药的降解作用使受污染土壤恢复到健康状态的过程。
The microorganism plays an important role in the degradation of pesticides in soil and water environment. Bioremediation technology of pesticide-contaminated soils is summarized in this paper.
为有效控制因化学农药“百菌清”大量应用而导致的农田土壤和农产品污染问题,本研究开展了该化学农药的微生物降解研究。
In order to apply the biodegradation preparation to control the farmland pesticide pollution, the author isolated a chlorothalonil-degrading bacterial strain TP-D1 from the heavily TPN-polluted soil.
植物主要通过直接吸收和代谢、根际土壤植物酶促降解和根际微生物对污染物的降解等三种机制去除土壤中残留的农药。
Plants clean up the pesticide-contaminated soils mainly through three ways:absorption and metabolism, rhizospheric-enzyme-stimulated degradation and rhizospheric microbial degradation.
植物主要通过直接吸收和代谢、根际土壤植物酶促降解和根际微生物对污染物的降解等三种机制去除土壤中残留的农药。
Plants clean up the pesticide-contaminated soils mainly through three ways:absorption and metabolism, rhizospheric-enzyme-stimulated degradation and rhizospheric microbial degradation.
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