Author:
Schippers A,Hallmann R,Wentzien S,Sand W
Abstract
Two different uranium mine waste heaps near Ronneburg, Thuringia, Germany, which contain the remains of the activity of the former uranium-mining Soviet-East German company Wismut AG, were analyzed for the occurrence of lithotrophic and chemoorganotropic leach bacteria. A total of 162 ore samples were taken up to a depth of 5 m. Cell counts of ferrous iron-, sulfur-, sulfur compound-, ammonia-, and nitrite-oxidizing bacteria were determined quantitatively by the most-probable-number technique. Sulfate-, nitrate-, ferric iron-, and manganese-reducing bacteria were also detected. In addition, the metabolic activity of sulfur- and iron-oxidizing bacteria was measured by microcalorimetry. Generally, all microorganisms mentioned above were detectable in the heaps. Aerobic and anaerobic microorganisms thrived up to a depth of 1.5 to 2 m. Up to 99% of Thiobacillus ferrooxidans cells, the dominant leaching bacteria, occurred to this depth. Their numbers correlated with the microbial activity measurements. Samples below 1.5 to 2 m exhibited reduced oxygen concentrations and reduced cell counts for all microorganisms.
Publisher
American Society for Microbiology
Subject
Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology
Reference63 articles.
1. Pyrite oxidation in acid sulfate soils: the role of microorganisms;Arkesteyn G. J. M. W.;Plant Soil,1980
2. Bennett J. W. J. R. Harries G. Pantelis and A. I. M. Ritchie. 1989. Limitations on pyrite oxidation rates in dumps set by air transport mechanisms p. 551-562. In J. Sally R. G. L. McGready and P. L. Wichlacz (ed.) Biohydrometallurgy. Canmet Ottawa Canada.
3. Bergmann R. and M. Meinke. Unpublished data.
4. Theoretical and practical studies on dump leaching;Bhappu R.;AIME Trans.,1969
5. New facultative lithoautotrophic nitrite-oxidizing bacteria;Bock E.;Arch. Microbiol.,1983
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