1887
Geophysical Signatures of West Australian Mineral Deposits
  • ISSN: 2202-0586
  • E-ISSN:

Abstract

Mons Cupri is an Archaean proximal, volcanogenic massive-sulphide deposit in the west Pilbara of Western Australia. Mineralisation occurs in the Mons Cupri Volcanics of the Whim Creek Belt. Stockwork copper-sulphides in altered Mount Brown Rhyolite are overlain by shallowly dipping, massive, copper-lead-zinc sulphides in volcaniclastic sedimentary rocks.

Two airborne magnetic surveys detected a 70 nTanomaly in broad correlation with the outline of the mineralisation. The likely source of this anomaly is magnetite within a chlorite alteration pipe. One trial and two surveys with airborne electromagnetics have been conducted. None of the systems, including GEOTEM II, yielded anomalies over Mons Cupri itself.

Seven trials and one survey with ground electromagnetics were also completed. Again, none produced anomalous results attributable to the mineralisation.

Two induced polarisation surveys detected slightly lower resistivities over the stockwork mineralisation; a magnetic induced polarisation survey obtained the opposite result. However, higher percentage frequency effects, chargeabilities, and relative phase shifts clearly coincided with the stockwork mineralisation. None of the systems unequivocally detected the massive sulphides at depth.

Mons Cupri is a difficult geophysical target. Low total-sulphide content, deep massive sulphides and a lack of electrical continuity combine to produce an enigmatic response and to defeat detection by electromagnetic systems.

© ASEG 1994
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1994-12-01
2026-01-14

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References

  1. BARLEY M.E., 1992. A review of Archean volcanic-hosted massive sulfide and sulfate mineralisation in Western Australia. Economic Geology 87, 860-862.
  2. BISHOP J.R. & LEWIS R.J.G., 1992. Geophysical signatures of Australian volcanic-hosted massive sulfide deposits. Economic Geology 87, 927-928.
  3. CLARK D.A. & EMERSON D.W., 1991. Notes on rock magnetization characteristics in applied geophysical studies. Exploration Geophysics 22, 547-555.
  4. EDWARDS L.S., 1977. A modified pseudosection for resistivity and IP. Geophysics 42, 1020-1036.
  5. GUNN P.J., 1983. Geophysical surveys in the Mons Cupri - Whim Creek area, Western Australia. Aquitaine Australia Minerals Pty Ltd, Internal Report, 10 pp. (unpublished).
  6. GUNN P.J. & CHISHOLM J., 1984. Non-conductive volcanogenic massive sulphide mineralisation in the Pilbara area of Western Australia. Exploration Geophysics 15, 143-153.
  7. HESTER B.W., 1974. An interpretation of the geology of the Mons Cupri copper deposit. Australian Inland Exploration Company Internal Report, 22 pp. (unpublished).
  8. LINFORD J.G., 1990. Report on a magnetic induced polarization survey, Mons Cupri and Salt Creek deposits, near Whim Creek, W.A., on behalf of Metal Mining Agency of Japan. Scintrex Report, 15 pp. (unpublished).
  9. MILLER LJ. & GAIR H.S, 1975. Mons Cupri copper-lead-zinc-silver deposit. In Knight C.L. (ed.), Economic Geology of Australia and Papua New Guinea, pp. 195-202. Australasian Institute of Mining and Metallurgy, Melbourne.
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  • Article Type: Research Article
Keyword(s): Electromagnetics; induced polarisation; magnetic induced polarisation; magnetics; Pilbara Craton; Roebourne SF50-3; volcanogenic massive-sulphide copper deposit

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