Xenon-lamp simulated sunlight-induced photolysis of pyriclobenzuron in water: Kinetics, degradation pathways, and identification of photolysis products

光解 化学 环境化学 光降解 降级(电信) 水溶液 羟基自由基 水污染 光催化 光化学 污染物 羟基化 杀螺剂 水处理 废水 农药降解 水质 地表水 自来水 水生生态系统
作者
Huanqi Wu,Kongtan Yang,Xumi Wang,Nan Fang,Peifang Weng,Liping Duan,Changpeng Zhang,Xiangyun Wang,Lianliang Liu
出处
期刊:Ecotoxicology and Environmental Safety [Elsevier BV]
卷期号:263: 115272-115272 被引量:8
标识
DOI:10.1016/j.ecoenv.2023.115272
摘要

Pyriclobenzuron 1(PBU) is a novel molluscicide developed to control Pomacea canaliculate, and little information on its environmental fate has been published. In this study, the photolysis of PBU in an aqueous environment was simulated using a xenon lamp. Results showed that the photolysis of PBU in water followed first-order kinetics, exhibiting a t0.5 of 95.1 h and 83.6 h in Milli-Q water and river water, respectively. Two main photolysis products 2(PPs) were detected by HPLC-UV and identified by UPLC-Q/TOF MS, which were formed via the hydroxylation and photocatalytic hydro-dehalogenation of PBU, respectively. The initial relative abundance of photolysis product 1 3(PP-1) in Milli-Q water was 1.55 times higher than that in river water. PP-1 was detected at 26.5 % and 76.8 % of the maximum relative abundance in the river water and Milli-Q water after 720 h, respectively. Photolysis product 2 4(PP-2) was stable in water because of its weak hydrophilicity. The PP-2 detected after 720 h in Milli-Q water and river water was 93.7 % and 93.5 % of the maximum relative abundance, respectively. Finally, ECOSAR software was used to evaluate the acute aquatic toxicity of PBU and its PPs, revealing that the PPs had lower toxicity levels to non-target aquatic organisms.
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