Goethite dissolution by acidophilic bacteria

Srdjan Stankovic, Axel Schippers
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Abstract

Previous studies have reported the role of some species of acidophilic bacteria in accelerating the dissolution of goethite under aerobic and anaerobic conditions. This has relevance for environments impacted by acid mine drainage and for the potential bioleaching of limonitic laterite ores. In this study, natural well-characterized goethite mineral samples and synthetic goethite were used in aerobic and anaerobic laboratory batch culture incubation experiments with ferric iron-reducing, acidophilic bacteria, including the lithoautotrophic species Acidithiobacillus (At.) thiooxidans, At. ferrooxidans, and At. caldus, as well as two strains of the organoheterotrophic species Acidiphilium cryptum. All bacteria remained alive throughout the experiments and efficiently reduced soluble ferric iron in solution in positive control assays. However, goethite dissolution was low to negligible in all experimental assays with natural goethite, while some dissolution occurred with synthetic goethite in agreement with previous publications. The results indicate that ferric iron-reducing microbial activity at low pH is less relevant for goethite dissolution than the oxidation of elemental sulfur to sulfuric acid. Microbial ferric iron reduction enhances but does not initiate goethite dissolution in very acidic liquors.
嗜酸性细菌溶解透辉石
之前的研究报告称,在有氧和无氧条件下,某些种类的嗜酸性细菌在加速鹅卵石溶解方面发挥了作用。这对受酸性矿山排水影响的环境和潜在的红土褐铁矿生物浸出具有现实意义。在这项研究中,在有氧和厌氧实验室批量培养孵育实验中使用了天然的特征良好的鹅铁矿矿物样本和合成鹅铁矿,并使用了嗜酸性铁还原细菌,包括硫代硫代铁杆菌(At.)、铁氧化物杆菌(At.ferrooxidans)和卡尔德斯杆菌(At.caldus)以及两株有机异养菌Acidiphilium cryptum。所有细菌在整个实验过程中都保持存活,并在阳性对照实验中有效地还原了溶液中的可溶性铁。然而,在使用天然鹅膏石进行的所有实验中,鹅膏石的溶解度都很低,甚至可以忽略不计,而使用合成鹅膏石时则出现了一些溶解,这与之前发表的文章一致。结果表明,与元素硫氧化成硫酸相比,在低 pH 值条件下微生物的还原铁活动对高铁溶解的影响较小。在酸性很强的液体中,微生物的铁还原作用会增强但不会引发鹅辉石的溶解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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