生物地球化学循环
锰
环境化学
生物修复
氧化还原
反硝化
化学
微生物
地球微生物学
自养
硫化物
缺氧水域
环境科学
生态学
氮气
无机化学
污染
细菌
生物
环境生物技术
有机化学
遗传学
作者
Xuan Wang,Guo-Jun Xie,Ning Tian,Cheng-Cheng Dang,Chen Cai,Jie Ding,Bing-Feng Liu,Defeng Xing,Chuan Chen,Qilin Wang
标识
DOI:10.1016/j.scitotenv.2022.153513
摘要
Manganese is a vital heavy metal abundant in terrestrial and aquatic environments. Anaerobic manganese redox reactions mediated by microorganisms have been recognized for a long time, which promote elements mobility and bioavailability in the environment. Biological anaerobic redox of manganese serves two reactions, including Mn(II) oxidation and Mn(IV) reduction. This review provides a comprehensive analysis of manganese redox cycles in the environment, closely related to greenhouse gas mitigation, the fate of nutrients, microbial bioremediation, and global biogeochemical cycle, including nitrogen, sulfur, and carbon. The oxidation and reduction of manganese occur cyclically and simultaneously in the environment. Anaerobic reduction of Mn(IV) receives electrons from methane, ammonium and sulfide, while Mn(II) can function as an electron source for manganese-oxidizing microorganisms for autotrophic denitrification and photosynthesis. The anaerobic redox transition between Mn(II) and Mn(IV) promotes a dynamic biogeochemical cycle coupled to microorganisms in water, soil and sediment environments. The discussion of reaction mechanisms, microorganism diversity, environmental influence bioremediation and application identify the research gaps for future investigation, which provides promising opportunities for further development of biotechnological applications to remediate contaminated environments.
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