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Silver sulphosalts from the Meerschaum Mine, Mt. Wills, Victoria, Australia

Published online by Cambridge University Press:  05 July 2018

W. D. Birch*
Affiliation:
Department of Mineralogy and Petrology, National Museum of Victoria, 285-321 Russell Street, Melbourne, Victoria, 3000

Abstract

A rich vein of silver and silver-lead sulphosalt minerals was discovered in 1906 in the Meerschaum Mine, on the Sunnyside goldfield at Mt. Wills, in northeastern Victoria. Andorite, miargyrite, tetrahedrite (freibergite), owyheeite, and argentian gold are the main silver-bearing minerals present, and sphalerite, pyrite, arsenopyrite, and covelline also occur in the vein.

The vein was probably emplaced under epithermal conditions from ore fluids accompanying the intrusion of the Mt. Wills granite. The main silver-bearing minerals were probably deposited at temperatures ranging from about 350 ° to below 300 °C.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1981

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References

Amcoff, O. (1976). Neues. Jahrb. Mineral. Monatsh. 247-61.Google Scholar
Barton, P.B. (1969). Geochim. Cosmichim. Acta, 33, 841- 57.CrossRefGoogle Scholar
Clark, L.A. (1960). Econ. Geol. 55, 1631-52.CrossRefGoogle Scholar
Craig, J.R., and Barton, P.B. (1973). Ibid. 68, 493-506.Google Scholar
Crohn, P.W. (1953). The Glen Wills-Sunnyside Goldfield, in Geology of Australian ore deposits, 1090-5 (5th Emp. Min. Metall. Congr.).Google Scholar
Crohn, P.W. (1958). Bull. geol. Surv. Vict. 56, 55 p.Google Scholar
Donnay, J.D.H., and Donnay, G. (1954). Am. Mineral. 39, 161-71.Google Scholar
Dunn, E.J. (1906). Rec. geol. Surv. Vic. 1, 233-8.Google Scholar
Dunn, E.J. (1908). Report of Director of Geological Survey of Victoria, in Annual report of Secretary for Mines, Victoria (1907), 57-66.Google Scholar
Edwards, A.B. (1958). Proc. Aus. Inst. Min. Met. (Stillwell Anniv. Vol.), 105-32.Google Scholar
Goodell, P.C. (1975). Can. Mineral, 13, 27-42.Google Scholar
Hall, W.E., and Czamanske, G.K. (1972). Econ. Geol. 67, 350-61.CrossRefGoogle Scholar
Hoda, S.N., and Chang, L.L.Y. (1975). Am. Mineral. 60, 621-33.Google Scholar
Hoffman, V., and Trdlicka, Z. (1978). Neues. Jahrbb. Mineral. Monatsh. 45-7.Google Scholar
Iwano, S., and Kuwarno, N. (1974). Geoscience Mag. 25, 94-101.Google Scholar
Keighin, C.W., and Honea, R.M. (1969). Mineral. Dep. 4, 153-71.CrossRefGoogle Scholar
Kenny, J.P.L. (1946). Sunnyside Goldfield. Unpub. Rep. Geol. Surv. Vict.Google Scholar
Lidgey, E. (1895). The Mt. Wills Goldfield. Reports on rapid surveys of the goldfields (Mines Dep. Vict.), 1-5.Google Scholar
Nuffield, E.W. (1945). Trans. Roy. Soc. Canada (3), Sn. IV, 39, 41-50.Google Scholar
Rickard, D.T. (1973). Tschermaks Mineral. Petrogr. Mitt. 19, 60-76.CrossRefGoogle Scholar
Riley, J.F. (1974). Mineral. Dep. 9, 117-24.CrossRefGoogle Scholar
Rosales, H. (1897). Spec. Rep. Mines Dep. Vict. 1-7.Google Scholar
Tatsuka, K., and Morimoto, N. (1973). Am. Mineral. 58, 425-34.Google Scholar
Tatsuka, K., and Morimoto, N. (1977). Ibid. 62, 1101-9.Google Scholar
Williams, S.A. (1968). Can. Mineral. 9, 475-83.Google Scholar