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Effect of soil organic matter-mediated electron transfer on heavy metal remediation: Current status and perspectives

环境修复 环境科学 环境化学 有机质 生物修复 土壤有机质 氧化还原 电子转移 土壤污染 化学 土壤水分 污染 土壤科学 无机化学 生态学 光化学 生物 有机化学
作者
Bing Kou,Ying Yuan,Xiaoli Zhu,Yuxin Ke,Hui Wang,Tingqiao Yu,Wenbing Tan
出处
期刊:Science of The Total Environment [Elsevier]
卷期号:917: 170451-170451 被引量:9
标识
DOI:10.1016/j.scitotenv.2024.170451
摘要

Soil contamination by heavy metals poses major risks to human health and the environment. Given the current status of heavy metal pollution, many remediation techniques have been tested at laboratory and contaminated sites. The effects of soil organic matter-mediated electron transfer on heavy metal remediation have not been adequately studied, and the key mechanisms underlying this process have not yet been elucidated. In this review, microbial extracellular electron transfer pathways, organic matter electron transfer for heavy metal reduction, and the factors affecting these processes were discussed to enhance our understanding of heavy metal pollution. It was found that microbial extracellular electrons delivered by electron shuttles have the longest distance among the three electron transfer pathways, and the application of exogenous electron shuttles lays the foundation for efficient and persistent remediation of heavy metals. The organic matter-mediated electron transfer process, wherein organic matter acts as an electron shuttle, promotes the conversion of high valence state metal ions, such as Cr(VI), Hg(II), and U(VI), into less toxic and morphologically stable forms, which inhibits their mobility and bioavailability. Soil type, organic matter structural and content, heavy metal concentrations, and environmental factors (e.g., pH, redox potential, oxygen conditions, and temperature) all influence organic matter-mediated electron transfer processes and bioremediation of heavy metals. Organic matter can more effectively mediate electron transfer for heavy metal remediation under anaerobic conditions, as well as when the heavy metal content is low and the redox potential is suitable under fluvo-aquic/paddy soil conditions. Organic matter with high aromaticity, quinone groups, and phenol groups has a stronger electron transfer ability. This review provides new insights into the control and management of soil contamination and heavy metal remediation technologies.
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