Arsenic leaching by indigenous bacteria in abandoned Au-Ag mine tailings which contained approximately 3200 mg/kg of As was investigated after supply of various organic substrates. Sequential extraction analysis designed to determine the mode of As occurrence in the tailings revealed that most As (90%) was closely associated with the Fe fraction. When glucose was supplied as a C source, indigenous bacteria significantly enhanced the extent of As release from the tailings into solution under both aerobic and anaerobic conditions. Anaerobic indigenous bacteria leached more amount of As from the tailings than aerobes. Highly positive correlation between the extracted amounts of As and Fe implied that microbial dissolution of Fe(III)-oxides, whether it was ligand- and proton-promoted dissolution or reductive dissolution, might be dominantly responsible for the As release. Bacterial strains which were resistant to up to 100 mM As(V) was aerobically isolated from the tailings. One of the isolates appeared to reduce some aqueous As(V) to likely As(III) in a batch type experiment, which indicated that indigenous bacteria can mediate the electrochemical speciation and thus the mobility of As in the tailings. The results suggest that indigenous bacteria in As-contaminated tailings can increase As mobility from the solid media when microbially available organic substrates are supplied, and thus enhance the risk of As dispersion to nearby soil, sediment and groundwater.

译文

:在提供各种有机底物后,研究了原生细菌在废弃的Au-Ag矿尾矿中的砷浸出,其中该矿尾矿含大约3200 mg / kg的As。设计用于确定尾矿中As发生方式的顺序萃取分析表明,大多数As(90%)与Fe含量密切相关。当葡萄糖作为碳源供应时,在好氧和厌氧条件下,原生细菌都显着提高了砷从尾矿中释放到溶液中的程度。厌氧性本地细菌从尾矿中浸出的砷比有氧菌中的要多。砷和铁的提取量之间高度正相关,表明无论是配体和质子促进的溶解还是还原性溶解,Fe(III)-氧化物的微生物溶解可能是导致As释放的主要因素。从尾矿中需氧分离出对高达100 mM As(V)具有抗性的细菌菌株。在分批实验中,分离物中的一种似乎能将某些As(V)的水溶液还原为可能的As(III),这表明本地细菌可以介导电化学形态,因此可以在尾矿中迁移As。结果表明,当提供了微生物可利用的有机底物时,被砷污染的尾矿中的土著细菌可以提高固体介质中砷的迁移率,从而增加了砷扩散到附近土壤,沉积物和地下水的风险。

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