由脱氮硫杆菌介导的纳米黄铁矿的厌氧硝酸盐依赖型氧化。

Anaerobic, nitrate-dependent oxidation of pyrite nanoparticles by Thiobacillus denitrificans.

机构信息

Institute of Groundwater Ecology, Helmholtz Zentrum München, 85764 Neuherberg, Germany.

出版信息

Environ Sci Technol. 2012 Feb 21;46(4):2095-101. doi: 10.1021/es2022329. Epub 2012 Jan 31.

DOI:10.1021/es2022329

Abstract

Pyrite is a key mineral in the global biogeochemical cycles of sulfur and iron, yet its anaerobic microbial oxidation has eluded geochemists and microbiologists for decades. Recent reports indicated that anaerobic oxidation of pyrite is occurring, but the mechanism remains unclear. Here, we provide evidence for the capability of Thiobacillus denitrificans to anaerobically oxidize a putatively nanosized pyrite particle fraction with nitrate as electron acceptor. Nanosized pyrite was readily oxidized to ferric iron and sulfate with a rate of 10.1 μM h(-1). The mass balance of pyrite oxidation and nitrate reduction revealed a closed recovery of the electrons. This substantiates a further "missing lithotrophy" in the global cycles of sulfur and iron and emphasizes the high reactivity of nanominerals in the environment.

摘要

黄铁矿是全球硫和铁生物地球化学循环中的关键矿物，但几十年来，地质学家和微生物学家一直未能弄清楚其在厌氧条件下的微生物氧化过程。最近的报告表明，黄铁矿的厌氧氧化确实在发生，但具体机制仍不清楚。在这里，我们提供了证据表明脱氮硫杆菌能够以硝酸盐为电子受体，在厌氧条件下氧化一种假定的纳米级黄铁矿颗粒。纳米级黄铁矿很容易被氧化成三价铁和硫酸盐，速率为 10.1 μM h(-1)。黄铁矿氧化和硝酸盐还原的质量平衡表明电子得到了完全回收。这进一步证实了硫和铁的全球循环中存在一种“缺失的岩石营养”，并强调了环境中纳米矿物的高反应性。

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由脱氮硫杆菌介导的纳米黄铁矿的厌氧硝酸盐依赖型氧化。

Anaerobic, nitrate-dependent oxidation of pyrite nanoparticles by Thiobacillus denitrificans.

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