1Munoz T A, Ballester A. A study of the bioleaching of a Spanish ore[ J ]. Hydrometallurgy, 1995 (38) : 39 - 97.
2Johnson A M, et al. Investigations related to in situ bioleaching of Michigan chalcocite ores [J ]. Mining Engineering, Dec. 1988, 1119-1122.
3Rossi G, et al. In-situ semi-commercial bioleaching test at the San Valentino di Predoi Mine(Northern Italy)[A].Fundamental and Applied Biohydrometallurgy,Proc.Int symp [C] .1986,173 - 189.
4Southwood M J and Southwood A J.Mineralogical Observations on the Bacterial Leaching of Auriferous Pyrite:A New Mathematical Model and Implications for the Release of Gold[A].Fundamental and Applied Biohydrometall Proc Int Symp[C],1986.98-113.
5Hansford G S and Vargas T.Chemical and Electrochemical Basis of Bioleaching Process[A].Amils R,Ballester A.Biohydrometallurgy and the Environment Toward the Mining of the 21st Century(Part A)[C]. Amsterdam,Lausanne,New York,Oxford,Shannon,Singapore,Tokyo:
6Tomas Vargas,Angel Sanhueza and Blanca Escobar.Studies of the Electrochemical Mechanism of Bacterial Catalysis in Pyrite Dissolution[A]. Torma A E,Wey J E, Laksmanan V I.Biohydrometallurgical Technologies(Vol I)[C]. Warrendate, Pendsylvania:TMS Press,1993
7Zimerley S R,Wilson D G and Parater J D.US Patent,2829964.1958.
8Hiltunen P, et al.Bacterial Pyrite Oxidation:Related of Iron and Scanning Electron Microscopic Observations[J].Hydrometallurgy,1981,7(2):147-157.
9Tomas Vargas.Angel Sanhueza and Blanca Escobar[A].Torma A E,Wey J E,Laksmanan V I.Biohydrometallurgical Technologies(Vol I)[C].Warrendate,Pendsylvania:TMS Press,1993.579.