Aspect of the degradation and adsorption kinetics of atrazine and metolachlor in andisol soil

Q3 Agricultural and Biological Sciences
P. Jaikaew, F. Malhat, J. Boulange, H. Watanabe
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引用次数: 9

Abstract

Summary The degradation kinetics and sorption characteristics of atrazine and metolachlor in Japanese andisol soil were evaluated using laboratory incubation of soil samples. The water content of the soil was set to field capacity while three different temperatures (5, 25 and 35°C) were considered for the experiment. First order model fitted the degradation kinetics of both herbicides under the investigated temperature range with half-lives ranging from 19.2 to 46.9 days for atrazine and from 23.4 to 66.9 days for metolachlor, respectively. The activation energies (Ea) of atrazine and metolachlor calculated using Arhenius equation were 21.47 and 23.91 kJ mol−1, respectively. The soil sorption study was conducted using the batch equilibrium process. The adsorption behaviors of atrazine and metolachlor were investigated using linear, Freundlich and Langmuir isotherms although the linear and Freundlich isotherms gave relatively high correlation coefficient (R2) and very low standard error of estimate (SEE). The free energy (ΔG°) values were in the range −30.6 to −32.0 kJ/mol, and −32.1 to −41.5 kJ/mol for atrazine and metolachlor, respectively. Thermodynamic parameters indicated that the adsorption is spontaneous, endothermic accompanied by increase in entropy. The understanding of atrazine and metolachlor sorption processes is essential to determine the pesticide fate and availability in soil for pest control, biodegradation, runoff and leaching.
阿特拉津和甲草胺在土壤中的降解和吸附动力学研究进展
摘要采用室内培养法研究了莠去津和异丙草胺在日本土和二醇土中的降解动力学和吸附特性。土壤含水量设定为田间容量,试验温度分别为5℃、25℃和35℃。一阶模型拟合了两种除草剂在温度范围内的降解动力学,阿特拉津的半衰期为19.2 ~ 46.9 d,异丙草胺的半衰期为23.4 ~ 66.9 d。用Arhenius方程计算阿特拉津和异甲草胺的活化能分别为21.47和23.91 kJ mol−1。采用间歇平衡法对土壤吸附进行了研究。采用线性等温线、Freundlich等温线和Langmuir等温线对阿特拉津和异丙草胺的吸附行为进行了研究,尽管线性等温线和Freundlich等温线具有较高的相关系数(R2)和很低的估计标准误差(SEE)。阿特拉津和异甲草胺的自由能(ΔG°)分别在−30.6 ~−32.0 kJ/mol和−32.1 ~−41.5 kJ/mol之间。热力学参数表明,吸附是自发的,吸热吸附伴随着熵的增加。了解莠去津和异丙三氯的吸附过程对于确定农药在土壤中的命运和有效性至关重要,可以用于害虫控制、生物降解、径流和淋滤。
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来源期刊
Hellenic Plant Protection Journal
Hellenic Plant Protection Journal Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
1.50
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