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Behavior and fate of microcystin-LR in soils amended with biochar and peat

生物炭 泥炭 修正案 土壤水分 环境化学 浸出(土壤学) 地下水 吸附 环境科学 环境修复 化学 土壤改良剂 环境工程 土壤科学 污染 吸附 地质学 生态学 生物 岩土工程 有机化学 热解 政治学 法学
作者
Qing Cao,Bensheng You,Lei Yao,Weijing Liu,Cheng Chen,Bingqing Zhu,Liqiang Xie
出处
期刊:Environmental Pollution [Elsevier BV]
卷期号:310: 119913-119913 被引量:3
标识
DOI:10.1016/j.envpol.2022.119913
摘要

Activities such as irrigation with cyanobacteria-polluted water can lead to microcystins (MCs) migration from soil surface to the deeper layers, which could pose a potential risk to ground drinking water safety. The present study evaluated the sorption, degradation and leaching behavior of microcystin-LR (MC-LR) in two different soils amended with biochar and peat. Results showed that both biochar and peat could significantly increase MC-LR sorption in both soils. The Freundlich unit capacity coefficient (Kf) of 2% biochar treatment were 2-3 times higher than those of the control treatment. Amendment of 2% peat greatly boosted the biodegradation of MC-LR, whereas amendment of 2% biochar significantly reduced the biodegradation of MC-LR in both soils. The half-lives of MC-LR were 4.99 d (Control), 5.59 d (2% Biochar) and 3.50 d (2% Peat) in soil A and 6.66 d (Control), 6.93 d (2% Biochar) and 5.13 d (2% Peat) in soil B, respectively. All the amendments, except treatment 1% Peat, could significantly reduce the recovery rates of MC-LR in the leachate of columns with both soils. Amendment of 2% biochar and 2% peat reduced the recovery rates of MC-LR by 15.87% and 8.6% in soil A and 18.4% and 10.3% in soil B, compared with the controls. This work provides a better understanding of the environmental behavior of MC-LR in soils with different amendments, which is also meaningful for groundwater protection in cyanobacterial-polluted areas.
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