中国土壤和沉积物中环苯胺的降解和迁移。

IF 2.7 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Bulletin of Environmental Contamination and Toxicology Pub Date : 2024-10-05 DOI:10.1007/s00128-024-03958-y
Jian He, Yezhi Dou, Li Cao, Jian Yu, Tongliang Zhang, Jia Yu, Chunqin Cui, Deyang Kong, Juying Li
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引用次数: 0

摘要

本文研究了植物生长调节剂环酰苯胺的环境归宿。在实验室对环酰苯胺的降解、吸附和迁移行为进行了详细测定。结果表明,环酰苯胺在江西红壤、太湖水稻土、常熟吴山土、陕西潮土和东北黑土中的降解半衰期分别为 42.3 d、31.9 d、14.4 d、30.4 d 和 27.在有氧条件下分别为 42.3 d、31.9 d、14.4 d、30.4 d 和 27.4 d,在厌水条件下分别为 32.3 d、37.4 d、29.3 d、48.9 d 和 27.0 d,主要代谢产物为 2,4-二氯苯胺(2,4-D)。在有氧条件下,2,4-D 的半衰期从 5.26 天到 27.1 天不等;在厌氧条件下,则从 10.6 天到 54.1 天不等。土壤对环酰菌胺的吸附与经验线性吸附等温线拟合良好,江西红壤、太湖水稻土、常熟吴山土、陕西潮土和东北黑土对环酰菌胺的吸附常数(Kd、H)分别为 7.08、4.49、4.05、3.20 和 1.41。迁移率试验结果表明,环酰苯胺在大多数试验土壤中都具有很强的迁移率。此外,土壤的 pH 值是影响土壤中环苯胺吸附的主要因素。在有氧环境下,河流和湖泊水-沉积物系统中总环苯胺的半衰期分别为 30.7 d 和 34.0 d;在厌氧环境下,其半衰期分别为 30.8 d 和 31.4 d。在水-沉积物系统中,2,4-D 主要存在于水相中,DT50 为 5.23 天至 8.76 天。这项研究表明,环酰菌胺具有污染环境的潜在风险,在应用时应加以注意。
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The Degradation and Migration of Cyclanilide in Soil and Sediment in China.

The environmental fate of a plant growth regulator cyclanilide was studied in this paper. The degradation, adsorption, and migration behaviors of cyclanilide were detailly measured in the laboratory. The results showed that the DT50 of cyclanilide degradation in the Jiangxi red, Taihu paddy, Changshu wushan, Shaanxi tide, and Dongbei black soils was 42.3 d, 31.9 d, 14.4 d, 30.4 d as well as 27.4 d under aerobic conditions and 32.3 d, 37.4 d, 29.3 d, 48.9 d as well as 27.0 d under water anaerobic conditions, respectively, with the main metabolite being 2,4-dichloroaniline (2,4-D). The DT50 of 2,4-D ranged from 5.26 to 27.1 days under aerobic conditions, and from 10.6 to 54.1 days under anaerobic conditions. The adsorption of cyclanilide by the soils was well fitted by the empirical linear adsorption isotherm, and the adsorption constant (Kd, H) values in the Jiangxi red, Taihu paddy, Changshu wushan, Shaanxi tide, and Dongbei black soils were 7.08, 4.49, 4.05, 3.20, and 1.41, respectively. The results of a mobility test showed that cyclanilide had strong mobility in the most test soils. Furthermore, soil pH is the dominant element affecting the adsorption of cyclanilide in the soils. Under aerobic environment, the DT50 of total cyclanilide in river and lake water-sediment systems were 30.7 d and 34.0 d, respectively; under anaerobic environment, their DT50 were 30.8 d and 31.4 d, respectively. In water-sediment systems, 2,4-D mainly exists in aqueous phase and the DT50 ranged from 5.23 to 8.76 days. This work demonstrated that cyclanilide has the potential risk to contaminate environment and attention should be paid to its application.

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来源期刊
CiteScore
5.60
自引率
3.70%
发文量
230
审稿时长
1.7 months
期刊介绍: The Bulletin of Environmental Contamination and Toxicology(BECT) is a peer-reviewed journal that offers rapid review and publication. Accepted submissions will be presented as clear, concise reports of current research for a readership concerned with environmental contamination and toxicology. Scientific quality and clarity are paramount.
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