Remediation of Cr(VI)-contaminated soil by ball milling modified zero-valent iron biochar composites: Insights into long-term stability and microbial community

Hexavalent chromium (Cr(VI)) in soil has received extensive attention because of its harmful effects on the environment. In this study, ball-milled zero-valent iron biochar composites (BM-ZVI/BC) were prepared and used for the remediation of artificial Cr(VI)-contaminated soil. The Cr(VI) in the soi...

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Published in:Journal of environmental chemical engineering 2023-12, Vol.11 (6), p.111279, Article 111279
Main Authors: Guo, Pengfei, Zhang, Jinlan, Zhou, Yi, Tang, Chenliu, Wang, Xiaohui, Gao, Xiaoping, Duan, Guilan, Lin, Aijun, Zhang, Tingting, Li, Shangyi
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Language:English
Subjects:
Anti-adverse environment
Bacterial community
Ball milling
Cr(VI)-contaminated soil
Zero-valent iron biochar composites
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container_title Journal of environmental chemical engineering
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creator Guo, Pengfei
Zhang, Jinlan
Zhou, Yi
Tang, Chenliu
Wang, Xiaohui
Gao, Xiaoping
Duan, Guilan
Lin, Aijun
Zhang, Tingting
Li, Shangyi
description Hexavalent chromium (Cr(VI)) in soil has received extensive attention because of its harmful effects on the environment. In this study, ball-milled zero-valent iron biochar composites (BM-ZVI/BC) were prepared and used for the remediation of artificial Cr(VI)-contaminated soil. The Cr(VI) in the soil could be reduced from 170.4 mg kg−1 to less than 3.0 mg kg−1 after 5 days and remained stable in the next 105 days. The immobilization efficiency for Cr(VI) and Cr was close to 100%. In addition, the bioavailability of Cr(VI) and Cr was reduced to 27.9% and 4.6%, respectively. BM-ZVI/BC not only played a role in the transformation of Cr into a more stable chemical form to reduce its toxicity and mobility in the soil, but also affected the soil physicochemical properties. Compared to zero-valent iron biochar composites (ZVI/BC), BM-ZVI/BC had a positive effect on recovering microbial diversity and richness, along with the enhanced growth of low-abundance phyla. The relative abundance of Arthrobacter, Bacillus and Exiguobacterium related to Cr-reduction was also increased in the BM-ZVI/BC remediated soil. BM-ZVI/BC has shown excellent resistance and stability under extreme environmental conditions of acid rain leaching, dry-wet and freeze-thaw cycles. This study demonstrates the potential of ball milling modification in preparing zero-valent iron biochar composites for the remediation of Cr(VI)-contaminated soil. [Display omitted] •BM-ZVI/BC reduced Cr(VI) in the soil to less than 3.0 mg kg−1 within 5 days.•BM-ZVI/BC reduced the mobility and bioavailability of Cr.•BM-ZVI/BC reshaped the community structure of microorganisms in the soil.•BM-ZVI/BC maintained Cr below 50 μg L−1 in long-term acid rain leaching.•BM-ZVI/BC could resist extreme conditions of dry-wet and freeze-thaw cycles.
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subjects Anti-adverse environment
Bacterial community
Ball milling
Cr(VI)-contaminated soil
Zero-valent iron biochar composites
title Remediation of Cr(VI)-contaminated soil by ball milling modified zero-valent iron biochar composites: Insights into long-term stability and microbial community
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