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Iron biogeochemical redox cycling dominantly controls cadmium availability in acidic paddy soils

生物地球化学循环 自行车 环境化学 土壤水分 氧化还原 化学 环境科学 土壤科学 无机化学 林业 有机化学 地理
作者
Yang Yang,Tongxu Liu,Thomas Borch,Liping Fang,Shiwen Hu,Wenting Chi,Guojun Chen,Kuan Cheng,Qi Wang,Xiaomin Li,Xiu Yuan,Fangbai Li
出处
期刊:Geochimica et Cosmochimica Acta [Elsevier BV]
卷期号:378: 186-202 被引量:31
标识
DOI:10.1016/j.gca.2024.06.029
摘要

Periodic redox condition changes in acidic paddy soils substantially induce the biogeochemical redox cycling, and consequently affect Cd availability. However, the underlying biogeochemical mechanisms of the complicated redox processes in paddy soil remain poorly understood. Thus, we investigated the dynamics of Cd fractions under anoxic (0–40 days) and oxic (40–55 days) conditions. The available Cd content was evaluated using the diffusive gradients in thin film (DGT) technique, and the results show it decreased from 6.3 μg L –1 to below 0.1 μg L –1 under anoxic conditions, but rapidly increased to 13.5 μg L –1 under oxic conditions . Both sequential extraction procedures and X-ray absorption spectroscopy (XAS) analyses found that majority of available Cd transformed to organic matter complex and Fe-Mn oxides fractions, rather than bounded with sulfides. The soil chemical properties further evaluated, and the correlation analysis and principal component analysis results suggested that the key factors in soils for the available Cd was the SO 4 2– , pH, and surface site concentration. The reduction of SO 4 2– could generate sulfides which may precipitate with dissolved Cd. The biogeochemical redox cycling of Fe/N/S determined the changes of soil pH and consequently influenced adsorption behavior of Cd. The breakdown of the soil aggregations changed the surface site concentration, which may affect the immobilization of Cd. A process-based kinetic model was established, and it found that iron biogeochemical redox cycling dominated the changes of soil pH, and thereby contributed to majority Cd retention by Fe-Mn oxides (34.4 %) and organic matter (33.7 %). In addition, sulfur biogeochemical redox cycling only contributed to 13.6 % of the total Cd contents, because of relatively low Cd solubility in contaminated soils and the competition with other cations for limited sulfides. The findings provide robust targets for interpreting the iron and sulfur biogeochemical processes for Cd availability and would be helpful for developing the precise and effective remediation strategies in Cd-contaminated soils.
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