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Fe/S oxidation-coupled arsenic speciation transformation mediated by AMD enrichment culture under different pH conditions

化学 亚砷酸盐 溶解 砷酸盐 遗传算法 黄铁矿 吸附 氧化还原 环境化学 转化(遗传学) 酸性矿井排水 非生物成分 无机化学 矿物学 地质学 有机化学 生物化学 生态学 古生物学 基因 生物
作者
Yuhang Zhou,Wei-xi Huang,Zhen‐yuan Nie,Hongchang Liu,Yue Liu,Can Wang,Jin‐lan Xia,Wensheng Shu
出处
期刊:Journal of Environmental Sciences-china [Elsevier BV]
卷期号:137: 681-700 被引量:9
标识
DOI:10.1016/j.jes.2023.03.008
摘要

Arsenic (As) speciation transformation in acid mine drainage (AMD) is comprehensively affected by biological and abiotic factors, such as microbially mediated Fe/S redox reactions and changes in environmental conditions (pH and oxidation-reduction potential). However, their combined impacts on arsenic speciation transformation remain poorly studied. Therefore, we explored arsenic transformation and immobilization during pyrite dissolution mediated by AMD enrichment culture under different acidic pH conditions. The results for incubation and mineralogical transformation of solid residues show that in the presence of AMD enrichment culture, pH 2.0, 2.5, and 3.0 are more conducive to the formation of jarosites and ferric arsenate, which could immobilize high quantities of dissolved arsenic by adsorption and coprecipitation. The pH conditions significantly affect the initial adsorption of microbial cells to the minerals and the evolution of microbial community structure, further influencing the biodissolution of pyrite and the release and oxidation process of Fe/S. The results of Fe/S/As speciation transformation of the solid residues show that the transformation of Fe, S, and As in solution is mainly regulated by pH and potential values, which imposed significantly different effects on the formation of secondary minerals and thus arsenic oxidation and immobilization. The above results indicated that arsenic transformation is closely related to the Fe/S oxidation associated with pyrite bio-oxidation, and this correlation is critically regulated by the pH conditions of the system.
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