Abstract
Thiobacillus-like microbes capable of oxidizing ferrous iron at pH 1.6 and a temperature of 55° have been found in thermal springs (Brock et al., 1976; LeRoux et al., 1977), a large-scale copper leaching test system (Brierley and Lockwood, 1977), commercial dump leaching operations at the Chino Mine, Hurley, New Mexico (Brierley, 1978), the Bingham Canyon Mine, Bingham, Utah, the Vlaidov Vrah Mine, Bulgaria (Groudev et al., 1978), and ore deposits in the USSR (Golovacheva and Karavaiko, 1977). These microbes have a chemolithotrophic heterotroph or mixotrophic mode of metabolism. They oxidize ferrous iron, pyrite or other metallic sulfides for energy, but growth occurs only in media supplemented with a reduced carbon compound such as yeast extract or glutathione. These microbes do not appear to fix carbon dioxide (Brierley et al., 1978) and may not reductively assimilate sulfate (Brierley et al., 1979).
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References
Beck, J.V., 1967. The role of bacteria in copper mining operations. Biotechnol. Bioeng., 9: 487–497.
Brierley, C.L., 1978. Bacterial leaching. CRC Critic. Rev. Microbiol., 5: 207–262.
Brierley, J.A., 1978. Thermophilic iron-oxidizing bacteria found in copper leaching dumps. Appl. Environ. Microbiol., 36: 523–525.
Brierley, J.A. and Brierley, C.L., 1978. Microbial leaching of copper at ambient and elevated temperatures. In: L.E. Murr, A.E. Torma, and J.A. Brierley (Eds.), Metallurgical Applications of Bacterial Leaching and Related Microbiological Pheneomena, Academic Press, NY, pp. 477–490.
Brierley, J.A. and LeRoux, N.W., 1977. A facultative thermophilic Thiobacillus-like bacterium: oxidation of iron and pyrite. In: W. Schwartz (Ed.), Conference Bacterial
Leaching 1977. Gesellschaft fur Biotechnologische Forschung Monograph Series, No. 4, pp. 55–56.
Brierley, J.A. and Lockwood, S.V., 1977. The occurrence of thermophilic iron-oxidizing bacteria in a copper leaching system. FEMS Lett., 2: 163–165.
Brierley, J.A., Lockwood, S.V., Kelly, D.P. and Norris, P.R., 1979. Requirement of organic compounds by iron-oxidizing facultative-thermophilic Thiobacilli. Abs. Ann. Meet. Am. Soc. Microbiol., I 7, p. 96.
Brierley, J.A., Norris, F.R., Kelly, D.P. and LeRoux, N.W., 1978. Characteristics of a moderately thermophilic acidophilic iron-oxidizing Thiobacillus. Eur. J. Appl. Microbiol. Biotechnol., 5: 291–299.
Brock, T.D., Cook, S., Peterson, S. and Mosser, J.L., 1976. Biogeochemistry and bacteriology of ferrous iron oxidation in geothermal habitats. Geochim. Cosmochim. Acta, 40: 493–500.
Ehrlich, H.L., 1963. Microorganisms in acid drainage from a copper mine. J. Bacteriol., 86: 350–352.
Golovacheva, R.S. and Karavaiko, G.I., 1977. A new facultative thermophilic thiobacillus isolated from sulphide ore. In: Abstr. Symb. Microbial Growth on C1- compounds. USSR Academy of Science, pp. 108–109.
Groudev, S.N., Genchev, F.N. and Genchev, S.S., 1978.. Observations on the microflora in an industrial copper dump leaching operation. In: L.E. Murr, A.E. Torma, and J.A. Brierley (Eds.), Metallurgical Applications of Bacterial Leaching and Related Microbiological Phenomena. Academic Press, NY, pp. 253–274.
LeRoux, N.W., Wakerley, D.S. and Hunt, S.D., 1977. Thermophilic thiobacillus-type bacteria from Icelandic thermal areas. J. Gen. Microbiol., 100: 197–201.
Lowry, O., Rosebrough, N., Farr, A and Randall, R., 1951. Protein measurement with the Folin phenol reagent. J. Biol. Chem. 193: 265–275.
Tuovinen, O.H. and Kelly, D.P., 1973. Studies on the growth of Thiobacillus ferrooxidans
I. Use of membrane filters and ferrous iron agar to determine viable numbers and comparison with 14CO2-fixation and iron oxidation as measures of growth. Arch. Microbiol., 88: 285–298.
Tuovinen, O.H. and Kelly, D.P., 1974a Studies on the growth of Thiobacillus ferrooxidans
II. Toxicity of uranium to growing cultures and tolerance conferred by mutation, other metal cation’s and EDTA. Arch. Microbiol.,95: 153–164.
Tuovinen, O.H. and Kelly, D.P., 1974b. Studies on the growth of Thiobacillus ferrooxidans
III. Influence of uranium, other metal ions and 2: 4-dinitrophenol on ferrous iron oxidation and carbon dioxide fixation by cell suspensions. Arch. Microbiol.,95: 165–180.
Tuovinen, O.H., Niemela, S.I. and Gyllenberg, H.G., 1971. Tolerance of Thiobacillus ferrooxidans to some metals. Antonie van Leeuwenhoek, 37: 489–496.
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Brierley, J.A. (1980). Facultative-Thermophilic Thiobacillus-Like Bacteria in Metal Leaching. In: Biogeochemistry of Ancient and Modern Environments. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-26582-6_48
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DOI: https://doi.org/10.1007/978-3-662-26582-6_48
Publisher Name: Springer, Berlin, Heidelberg
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