生物炭
修正案
环境修复
去壳
土壤水分
环境化学
环境科学
砷
类金属
锑
化学
土壤污染
土壤修复
农学
污染
生物修复
红土
环境工程
吸附
根际
材料科学
土壤质量
砷酸盐
多孔性
土壤科学
土壤分类
作者
Yurong Gao,Hanbo Chen,Fenglin Wang,Jiayi Li,Zheng Fang,Xiaokai Zhang,Xing Yang,Jin Wang,Juan Liu,Caibin Li,Hailong Wang
出处
期刊:Biochar
[Springer Nature]
日期:2026-03-10
卷期号:8 (1)
标识
DOI:10.1007/s42773-026-00579-y
摘要
Abstract Effective co-immobilization of arsenic (As) and antimony (Sb) in contaminated paddy soils remains a persistent challenge for conventional biochar amendments. To address this limitation, a magnetic biochar gel (FeRBG) was synthesized by integrating rice husk biochar, iron oxides, and graphene into a three-dimensional porous network. Its remediation performance and ecological effects were systematically evaluated in Sb-As co-contaminated soil-rice systems. Compared to pristine and Fe-modified biochar, FeRBG decreased (NH 4 )H 2 PO 4 -extractable Sb and As concentrations more significantly, by 23.1% and 22.3%, respectively, primarily by reducing non-specifically adsorbed fractions and promoting transformation into residual phases. Notably, FeRBG was the only amendment that significantly decreased Sb and As accumulation in rice grains by 16.1% and 34.0%, respectively, compared to the control. Furthermore, FeRBG enhanced root system architecture, increasing total root length, surface area, mean diameter, and tip number. Biochar amendment reshaped soil bacterial communities, with core taxa including Pirellulaceae, Nitrosomonadaceae , Sphingomonadaceae , and Comamonadaceae . Redundancy and correlation analyses revealed that soil Sb/As availability and Fe content were key environmental factors regulating bacterial community succession. Structural equation modeling revealed that FeRBG enhanced metalloid immobilization through Fe–O–Sb/As complexation, thus reducing grain accumulation and increasing rice yield. These findings provide a competitive functionalized biochar strategy for the sustainable remediation of Sb/As co-contaminated paddy soils and for improving rice cultivation.
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