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The distribution and recovery of gold in the Golden Sunlight gold-silver telluride deposit, Montana, U.S.A.

Published online by Cambridge University Press:  25 June 2018

P. G. Spry
Affiliation:
Department of Geological and Atmospheric Sciences, 253 Science I, Iowa State University, Ames, Iowa 50011-3212, USA
S. E. Thieben
Affiliation:
Department of Geological and Atmospheric Sciences, 253 Science I, Iowa State University, Ames, Iowa 50011-3212, USA

Abstract

The gold balance in an ore deposit where the ore is treated by cyanide is the sum of the ‘visible gold’ that is amenable to cyanidation and ‘visible gold’ and the ‘invisible gold’, which are not amenable to cyanidation. Petrographic analyses, electron and ion microprobe as well as scanning electron microscope studies of ore from the Golden Sunlight deposit, Montana, suggest that periods of relatively poor gold recoveries are primarily due to the presence of inclusions, <25 µm in size, of native gold, petzite, calaverite, buckhornite and krennerite. These are encapsulated in cyanide insoluble grains of pyrite, chalcopyrite and tennantite and are present in the tailings. This contribution probably accounts for 3–25% of the unrecoverable gold processed during the life of the mine. Minor amounts (6–7%) of ‘invisible gold’, as indicated by ion microprobe studies and the presence of up to 5% ‘visible gold’ in buckhornite, which is rare in nature, appears to account for the remainder of the gold budget.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 2000

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References

Cabri, L.J. (1965) Phase relations in the Au-Ag-Te system and their mineralogical significance. Econ. Geol., 60, 1569–606.CrossRefGoogle Scholar
Cabri, L.J. and Chryssoulis, S.L. (1990) Genesis of the Olympias carbonate-hosted Pb-Zn (Au, Ag) sulfide ore deposit, eastern Chalkidiki Peninsula, northern Greece – Discussion. Econ. Geol., 85, 651–2.CrossRefGoogle Scholar
Childs, J.F. and Foster, F. (1993) A geologic summary of significant lode gold systems in Montana. Soc. Min. Metall. Explor. Preprint, 93-244, 40 p.Google Scholar
Chryssoulis, S.L., Cabri, L.J. and Lennard, W. (1989) Calibration of the ion microprobe for quantitative trace precious metal analyses of ore minerals. Econ. Geol., 84, 1684–90.CrossRefGoogle Scholar
Connelly, B. (1996) Gold characterizations, tail concentrates. Unpubl. Rep. Golden Sunlight Mines, Inc., 3 p.Google Scholar
Connelly, B. (1997) Gold characterizations, eight concentrates. Unpubl. Rep. Golden Sunlight Mines, Inc., 10 p.Google Scholar
Cook, N.J. and Chryssoulis, S.L. (1990) Concentrations of ‘invisible gold” in the common sulfides. Canad. Mineral., 28, 116.Google Scholar
DeWitt, E., Foord, E.E., Zartman, R.E., Pearson, R.C., and Foster, F. (1996) Chronology of Late Cretaceous igneous and hydrothermal events at Golden Sunlight gold-silver breccia pipe, southwestern Montana. U.S. Geol. Surv. Bull., 2155, 48 p.Google Scholar
Donovan, J.J., Rivers, M.L. and Armstrong, J.T. (1992) PRSUPR: Automation and analysis software for wavelength dispersive electron-beam microanalysis on a PC. Amer. Mineral., 77, 444–5.Google Scholar
Foster, F. and Chadwick, T.H. (1990) Relationship of the Golden Sunlight mine to the Great Falls Tectonic Zone. Pp. 7781 in: Geology and ore deposits of the Trans-Challis Fault System/Great Falls Tectonic Zone. (Moye, F. J., editor). Tobacco Root Geol. Soc. 15th Ann. Field Trip Guide.Google Scholar
Foster, F. and Childs, J.F. (1993) An overview of significant lode gold systems in Montana, and their regional geological setting. Expl. Min. Geol., 2, 217–44.Google Scholar
Francis, C.A., Criddle, A.J., Stanley, C.J., Lange, D.E., Shieh, S. and Francis, J.G. (1992) Buckhornite, AuPb2BiTe2S3, a new mineral species from Boulder County, Colorado, and new data for aikinite, tetradymite and calaverite. Canad. Mineral., 30, 1039–48.Google Scholar
Harris, D.C. (1990) The mineralogy of gold and its relevance to gold recoveries. Mineral. Dep., 25, S3S7.CrossRefGoogle Scholar
Johan, Z., Dódony, I., Morávek, P. and Pašava, J. (1994) La buckhornite, Pb2AuBiTe2S3, du gisement d'or de Jilove, Republique tcheque (in French). C.R. Acad. Sci. Paris, 318(2), 1225–31.Google Scholar
Kovalenker, V.A., Zalibekyan, M.A., Laputina, I.P., Malov, V.S., Sandomirskaya, S.M., Garas'ko, M.I. and Mkhitaryan, D.V. (1990) Sulfide-telluride mineralization of the Megradzor ore field, Armenia. Int. Geol. Rev., 32, 705–20.CrossRefGoogle Scholar
Larocque, A.C.L., Jackman, J.A., Cabri, L.J. and Hodgson, C.J. (1995) Calibration of the ion-microprobe for the determination of silver in pyrite and chalcopyrite from the Mobrun VMS deposit, Rouyn-Noranda, Quebec. Canad. Mineral., 33, 361–72.Google Scholar
Lindquist, A.E. (1966) Structure and mineralization of the Whitehall mining district, Jefferson County, Montana. M.S. Thesis, Montana Tech., U.S.A. Google Scholar
Marsden, J. and House, I. (1993) The Chemistry of Gold Extraction. Ellis Horwood, New York.Google Scholar
Paredes, M.M. (1994) A fluid inclusion, stable isotope, and multi-element study of the Golden Sunlight deposit, Montana. M.S. thesis Iowa State Univ., U.S.A. Google Scholar
Pašava, J., Breiter, K., Malátek, J. and Rajlich, P. (1986) Cu-rich rucklidgeite and an unnamed Pb-Au-Bi sulphotelluride from the Jílové gold deposit (in Czech). Věst Ústé Útav. Geol., 61, 217–21.Google Scholar
Porter, E.W. and Ripley, E. (1985) Petrologic and stable isotope study of the gold-bearing breccia pipe at the Golden Sunlight deposit, Montana. Econ. Geol., 80, 16891706.CrossRefGoogle Scholar
Spry, P.G., Paredes, M.M., Foster, F., Truckle, J. and Chadwick, T.H. (1996) Evidence for a genetic link between gold-silver telluride and porphyry molybdenum mineralization at the Golden Sunlight deposit, Whitehall, Montana: Fluid inclusion and stable isotope studies. Econ. Geol., 91, 507–26.CrossRefGoogle Scholar
Spry, P.G., Foster, F., Truckle, J. and Chadwick, T.H. (1997) The mineralogy of the Golden Sunlight gold-silver telluride deposit, Whitehall, Montana. Mineral. Petrol., 53, 143–64.CrossRefGoogle Scholar
Thieben, S.E. and Spry, P.G. (1995) The geology and geochemistry of Cretaceous-Tertiary alkaline rock-related gold-silver telluride deposits of Montana, USA. Pp. 199202 in: Mineral deposits: From their origin to their environmental impacts (Pašava, J., Kříbek, B. and Žák, K., editors). A.A. Balkema, Rotterdam.Google Scholar