Iron-Monosulfide Oxidation in Natural Sediments: Resolving Microbially Mediated S Transformations Using XANES, Electron Microscopy, and Selective Extractions

摘要

Iron-monosulfide oxidation and associated S transformations in a natural sediment were examined by combining selective extractions, electron microscopy and S K-edge X-ray absorption near-edge structure (XANES) spectroscopy. The sediment examined in this study was collected from a waterway receiving acid-sulfate soil drainage. It contained a high acid-volatile sulfide content (1031 μmol g~(-1)), reflecting an abundance of iron-monosulfide. The iron-monosulfide speciation in the initial sediment sample was dominated by nanocrystalline mackinawite (tetragonal FeS). At near-neutral pH and an O_2 partial pressure of ～0.2 atm, the mackinawite was found to oxidize rapidly, with a half-time of 29 ± 2 min. This oxidation rate did not differ significantly (P < 0.05) between abiotic versus biotic conditions, demonstrating that oxidation of nanocrystalline mackinawite was not microbially mediated. The extraction results suggested that elemental S (S_8~0) was a key intermediate S oxidation product Transmission electron microscopy showed the S_8~0 to be amorphous nanoglobules, 100-200 nm in diameter. The quantitative importance of S_8~0 was confirmed by linear combination XANES spectroscopy, after accounting for the inherent effect of the nanoscale S_8~0 particle-size on the corresponding XANES spectrum. Both the selective extraction and XANES data showed that oxidation of S_8~0 to SO_4~(2-) was mediated byrnmicrobial activity. In addition to directly revealing important S transformations, the XANES results support the accuracy of the selective extraction scheme employed here.