[1] Mathur A.K., Viswamohan K., Mohanty K.B., Murthy V.K., Seshardrinath, S.T., 2000.Uranium Extraction Using Biogenic Ferric Sulfate: a Case Study on Quartz Chlorite Ore from Jaduguda, Singhbhum Thrust Belt (STB), Bihar, India. Minerals Engineering, 13(5), 575-579.
[2] Agate A.D., Recent Advances in Microbial Mining, World Journal of Microbiology and Biotechnology, 12, p. 487 (1996).
[3] Bosecker K., Bioleaching: Metal Solubilization by Microorganisms, FEMS Microbiology Reviews, 20, p. 591 (1997).
[4] Moon-Sung, Choi., Kyung-Suk, Cho., Dong-Su, Kim., Hee-Wook, Ryu., Bioleaching of Uranium from Low Grade Black Schists by Acidithiobacillus ferrooxidans, World Journal of Microbiology & Biotechnology, 21, p. 377 (2005).
[5] Munoz J.A., Ballester A, Gonzalez F., Blazquez M.L., A Study of the Bioleaching of a Spanish Uranium Ore. Part II: Orbital Shaker Experiments, Hydrometallurgy, 38, p. 59 (1995a).
[6] Munoz J.A., Gonzalez F., Blazquez M.L., Ballester A., A Study of the Bioleaching of a Spanish Uranium Ore. Part I: A Review of the Bacterial Leaching in the Treatment of Uranium Ores, Hydrometallurgy, 38, p. 39 (1995b).
[7] Kawatra S.K., Natarajan K.A., "Mineral Biotechnology", SME (USA), pp 101-115 (2001).
[8] Munoz J.A., Gonzalez F., Ballester A., Blazquez M.L., Bioleaching of a Spanish Uranium Ore, FEMS Microbiology Reviews, 11, p. 109 (1993).
[9] Russian Federation Ministry of Atomic Energy., [Report of Processing Technology Developed for Uranium Ores from Saghand Deposit IslamicRepublicofIran] (1996).
[10] Ronald M.A., "Handbook of Microbiological Media", Second Ed. Robert Stern Publisher,New York(1997).
[11] Underwood A.L., Day R.A.,. "Quantitative Analysis", Prentice Hall,London, pp 645-646 (1991).
[12] Ryu H.W., Cho K.S., Chang Y.K., Kim S.D., Mori T., Refinement of Low-Grade Clay by Microbial Removal of Sulfur and Iron Compounds Using Thiobacillus ferrooxidans, Journal of Fermentation and Bioengineering, 80, p. 46 (1995).
[13] Tuovinen O.H., Bhatti T.M., Bigham J.M., Hallberg K.B., Garcia O., Lindstrom E.B., Oxidative Dissolution of Arsenopyrite by Mesophilic and Moderately Thermophilic Acidophiles, Appl Envir Microbiol, 60, p. 3268 (1994).
[14] Gomez C., Blazquez M.L., Ballester A., Bioleaching of a Spanish Complex Sulfide ore Bulk Concentrate. Minerals Engineering, 12, p. 93 (1998).
[15] Deveci H., Effect of Solids on Viability of Acidophilic Bacteria, Minerals Engineering, 15, p. 1181 (2002).
[16] Olubambi P.A., Ndlovu S., Potgieter J.H., Borode J.O., Effects of Ore Mineralogy on the Microbial Leaching of Low Grade Complex Sulfide Ores, Hydrometallurgy, 86, p. 96 (2007).