Fate and ecological risks of current-use pesticides in seawater and sediment of the Yellow Sea and East China Sea

环境科学 沉积物 杀虫剂 环境化学 海水 河口 海洋学 多溴联苯醚 林丹
作者
Ling Wang,Minggang Zheng,Hong Xu,Yi Hua,Aifeng Liu,Li Yuan,Lidan Fang,Xiangfeng Chen
出处
期刊:Environmental Research [Elsevier BV]
卷期号:: 112673-112673
标识
DOI:10.1016/j.envres.2021.112673
摘要

With the frequent use of chemical pesticides, the current-use pesticides (CUPs) emerge and concentrate in the sea. The partition between the sediment and seawater is essential for understanding the environmental fate of CUPs. However, there is little research on this topic. In the present study, seventeen CUPs were screened in seawater and sediment samples collected from the Yellow Sea and East China Sea. Total concentration of 17 CUPs in surface seawater samples ranged from 9.5 to 267.3 ng/L, with 6 CUPs presenting 100% detection frequency. Carbendazim, tricyclazole, tebuconazole, atrazine and imidacloprid accounted for >80% of all CUPs, which was due to their large application in the local agriculture and fishing activities. Higher concentration sites were located near the shore and Yangtze river estuary, indicating intense human activities and riverine input that elevated the level of CUPs in marginal sea. The pesticides in seawater were mainly found in the surface followed by the bottom layer, which indicated that atmospheric deposition and re-suspension played key roles for their vertical distribution characteristics. The high fugacity fraction ratios ( ff > 0.5) indicated the non-equilibrium state of pesticides that might have been transferred from sediment to seawater at most sites. These 17 detectable pesticides in seawater were at low levels, presenting ignorable or low toxic effects to aquatic organisms. • Seventeen CUPs were ubiquitous pollutants in seawater and sediment of the YS and ECS. • The CUPs were mainly found in surface seawater, carbendazim was the main CUPs. • Atmosphere deposition and re-suspension influenced the vertical distribution of CUPs. • Fugacity data indicated the CUPs would transfer from sediment to water at most sites. • The CUPs in seawater were at low levels, presenting ignorable or low toxic effects.
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