The prevalence of sulphidic sediments in inland wetlands has been only recently recognized in many parts of the world, including Australia. The exposure of sulphidic sediments in these wetlands due to natural and human induced drying events has resulted in the oxidation of iron sulfide minerals, the formation of secondary iron minerals characteristic of acid sulfate soils and the release of highly acidic solutions. The objective of this study was to determine the mineralogy and morphology of sediments collected from the oxidized surface horizon (0-5 cm) of an inland acid sulfate soil located in south-western New South Wales (NSW), Australia. Random powder X-ray diffraction (XRD), transmission electron microscopy (TEM) and scanning transmission electron microscopy combined with energy dispersive X-ray spectroscopy (STEM-EDS) techniques were used to characterize the minerals present in these sediments. Akaganeite was identified as the major mineral phase in the sediments; K-jarosite was also determined in small amounts in some sediments. The XRD patterns of sequentially washed (E-pure (R) water-0.01 M HCl-0.01 M EDTA) sediment samples showed all akaganeite peaks; the Rietveld refinement of these patterns also revealed a predominance of akaganeite. The chemical analyses of the original and washed sediments using STEM-EDS clearly showed the presence of akaganeite as a pure mineral phase with an average Fe/Cl mole ratio of 6.7 and a structural formula of Fe(8)O(8)(OH)(6.8)(Cl)(1.2). These findings show that the extreme saline-acidic solutions (pH similar to 2, EC = 216 dS/m) at the Bottle Bend lagoon provide ideal conditions for the crystallization of this rarely forming mineral.

• 出版日期2011-11-1