现代农业科技
現代農業科技
현대농업과기
XIANDAIHUA NONGYE
2012年
22期
209-210
,共2页
腐霉利%微生物%降解
腐黴利%微生物%降解
부매리%미생물%강해
procymidone%microbe%degradation
为了进一步加强腐霉利自然降解机制的研究,在实验室条件下,研究了微生物对土壤中腐霉利降解的影响。结果表明:在施用56d后,腐霉利在土壤中的消解率均在90%以上。腐霉利在土壤中的降解动态规律符合一级动力学模型。腐霉利在灭菌和未灭茵土壤中的半衰期分别为14.1、9.4d。微生物的参与有利于腐霉利在土壤中的降解。
為瞭進一步加彊腐黴利自然降解機製的研究,在實驗室條件下,研究瞭微生物對土壤中腐黴利降解的影響。結果錶明:在施用56d後,腐黴利在土壤中的消解率均在90%以上。腐黴利在土壤中的降解動態規律符閤一級動力學模型。腐黴利在滅菌和未滅茵土壤中的半衰期分彆為14.1、9.4d。微生物的參與有利于腐黴利在土壤中的降解。
위료진일보가강부매리자연강해궤제적연구,재실험실조건하,연구료미생물대토양중부매리강해적영향。결과표명:재시용56d후,부매리재토양중적소해솔균재90%이상。부매리재토양중적강해동태규률부합일급동역학모형。부매리재멸균화미멸인토양중적반쇠기분별위14.1、9.4d。미생물적삼여유리우부매리재토양중적강해。
For more research on the natural degradation of procymidone,this paper studied the infection of microbe on degradation of procymidone in soil under laboratory conditions. The results showed that, 56 clays after adding procymidone, the degradation rate in soil was over 90%. Degradation of procymidone in soil accorded with senior grade dynamics.The haft-live of procymidone was 14.1 days and 9.4 days in sterilized and not sterilized soil, respectively. Biological degradation with microbe was better for the degradation of proeymidone in soil.