以堆肥为基础的生物床与以泥炭苔藓为基础的生物床混合物中毒死蜱、戊唑醇和甲基硫菌灵农药的消散情况

Talaat N. M. El-Sebai, Wafaa M. H. Zidan, Alaa Marzouk, Marion Divers, Fabrice Martin-Laurent
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引用次数: 0

摘要

生物床是一种智能生物修复系统,用于处理点源农药污染。生物混合物是生物床的主要组成部分,其成分会影响农药的消散。本研究旨在比较以堆肥为基础的生物床(C)和以泥炭藓为基础的生物床(P)的生物混合物对测试农药消散的效果。我们的数据显示了生物混合物类型对测试农药消散的影响。这一结果在矿化动力学实验中得到了证实,因为在生物混合物 P 中,初始 14C 毒死蜱浓度的 25% 以 14CO2 的形式积累,而在生物混合物 C 中仅为 14%。此外,在生物混合物 P 中单独施用毒死蜱时,毒死蜱的消散率受初始浓度的影响。相比之下,生物混合物 C 比生物混合物 P 更有效地消散戊唑醇,因为在相同的培养时间内,生物混合物 C 消散了 76% 的戊唑醇,而生物混合物 P 消散了 67%。对于甲基硫菌灵,生物混合物 C 和 P 的能力相似,但效率低于其他受测农药。在生物混合物 C 中添加三种受测农药只对毒死蜱和甲基硫菌灵的消解有积极影响,而单独施用或混合施用时,戊唑醇的消解效果相似。在生物混合物 C 和 P 中分别加入或混合加入杀虫剂都会刺激微生物的活性,这可以通过脱氢酶活性来衡量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dissipation of chlorpyrifos, pendimethalin, and thiophanate-methyl pesticides in compost based-versus peat-moss based-biomixture of biobeds

Dissipation of chlorpyrifos, pendimethalin, and thiophanate-methyl pesticides in compost based-versus peat-moss based-biomixture of biobeds

Biobed is a smart bioremediation system used to treat point-source pesticide contamination. Biomixture is the main component of biobeds, and pesticide dissipation is affected by its composition. This study aimed to compare the effectiveness of compost-based (C) versus peat-moss-based (P) biomixtures of biobeds on tested pesticide dissipation. Three concentrations (25, 50, and 75 mg/kg) of chlorpyrifos, pendimethalin, and thiophanate methyl were added separately and as a mix to both biomixtures C and P. Our data showed the effect of biomixture type on the dissipation of the tested pesticides. For chlorpyrifos, its dissipation rate in biomixture P was more rapid than that in biomixture C. This result was confirmed by the mineralization kinetic experiment, since 25% of the initial 14C-chlorpyrifos concentration accumulated in the form 14CO2 in biomixture P compared to only 14% in biomixture C. In addition, the chlorpyrifos dissipation rate was influenced by the initial concentration when applied individually in biomixture P. In contrast, biomixture C was more effective at pendimethalin dissipation than biomixture P, since >76% of pendimethalin was dissipated in biomixture C versus 67% in biomixture P at the same incubation time. For thiophanate-methyl, the abilities of both biomixtures C and P were similar and less efficient than those of the other tested pesticides. The addition of the three tested pesticides to biomixture C only had a positive effect on both chlorpyrifos and thiophanate-methyl dissipation, while pendimethalin dissipation was similar when applied separately or as a mix. Microbial activity was stimulated by the addition of separately or mixed pesticides to biomixtures C and P as measured by dehydrogenase activity.

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