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

Abstract

Hydrothermal willemite deposits in the Beltana area are amongst the highest grade zinc deposits in the world, averaging 30 to 38% Zn. Deposits discovered to date are <1 Mt and represent small targets of great economic value. Associated minerals include coronadite, hedyphane, haematite, smithsonite, manganoan-calcite and minor quartz. There are no significant sulphides.

Gravity is the only geophysical technique proven to have direct application for exploration for this style of ore body. Pure willemite (ZmSiOJ has a density of 4.2 g/cm3 and the ore at Beltana/Aroona averages 3.9 g/cm3. Gravity modelling of the Beltana deposit indicates that a 1 Mt willemite deposit could be detected up to 80 m below surface using closely spaced gravity data. Gravity surveys in the northern Flinders Ranges have been useful during exploration for identifying; 1) lithostratigraphy, 2) structure, including dips of major structures, 3) hydrothermal alteration, 4) karsts and 5) depth to bedrock in areas of extensive cover, but have not highlighted a new willemite discovery to date. The identification of responses from mineralisation is complicated by variations in alteration and the presence of karsting, which can result in positive through to negative anomalies over mineralisation.

© ASEG 2003
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2003-12-01
2026-01-21

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References

  1. Bishop, J.R. and Emerson, D.W., 1999. Geophysical properties of zinc bearing deposits: Australian Journal of Earth Sciences, 46, 311-328.
  2. Coats, R.P., 1973, COPLEY, South Australia, sheet SH54-9. South Australian Geological Survey. 1:250 000 Series.
  3. Elliot, G., 2000. Beltana Gravity Survey Flinders Ranges Project, Perilya Limited. Internal Report, Pl-7.
  4. Groves, I, Gregory, I. and Carman, C. 2002. Reliance - a new high grade zinc silicate-oxide discovery in the Flinders Range. MESA Journal, 25, 6-10.
  5. Hitzman M.W., Reynolds N., Sangster D.F, Allen C. R. and Carman C, in press. Classification, genesis and exploration guides for non-sulphide zinc deposits. Economic Geology Special Publication - Zinc Oxide Deposits, Society of Economic Geologists, 1^47.
  6. Horn, R.A., 1975. Beltana and Aroona Willemite orebodies. In, Knight, C.L., (Ed.), Economic Geology of Australia and Papua New Guinea, 1, Metals. Australasian Institute of Mining and Metallurgy, Monograph Series, 5, 548-553.
  7. Lees T.C. and Smith R.S., 1991. Third Progress Report on EL 1691 Beltana, SA for the Three Month Period Ending 6th Sept, 1991. Company Report, Pasminco Australia Ltd.
  8. Milovanovic, J. and Circosta, G., 1984. Eighth quarterly report for the period ended 27 September 1984. Company Report, Electrolytic Zinc Company of Australasia Limited.
  9. Muller, D.W., 1971. The Geology of the Beltana Ore Deposits. University of Melbourne, Ph.D thesis (unpublished).
  10. Muller, D.W., 1972. The geology of the Beltana willemite deposits. Economic Geology, 67, 1146-1167.
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  • Article Type: Research Article
Keyword(s): Adelaide Geosyncline; Cambrian; Copley SH54-9; gravity; induced polarisation; magnetics

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