Geophysical exploration for copper-gold mineralisation in the Benagerie Ridge Magnetic Complex, Curnamona Province, South Australia

Bruce Godsmark; Michael Hudson; Neil Hughes; David Mclnnes; Graham Teale

doi:10.1071/ASEGSpec12_12

Geophysical Signatures of South Australian Mineral Deposits

ISSN: 2202-0586
E-ISSN:

oa Geophysical exploration for copper-gold mineralisation in the Benagerie Ridge Magnetic Complex, Curnamona Province, South Australia
Authors Bruce Godsmark, Michael Hudson, Neil Hughes, David Mclnnes and Graham Teale
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2003, Issue Geophysical Signatures of South Australian Mineral Deposits, Dec 2003, p. 135 - 146
DOI: https://doi.org/10.1071/ASEGSpec12_12
- Published online: 01 Dec 2003

Abstract

The Benagerie Ridge Magnetic Complex is located in eastern South Australia. The Complex, a component of the Curnamona Craton, comprises highly altered Palaeproterozoic meta-sediments of the Willyama Supergroup, and is concealed by tens of metres of sedimentary cover. The cover includes Neoproterozoic, Cambrian, and particularly, Tertiary strata. Exploration in the region has led to the discovery of Proterozoic iron oxide-style copper-gold

mineralisation, plus related elluvial gold in the overlying Tertiary strata. The mineralisation is associated with zones of deeper weathering, resulting from intense feldspathic alteration and sulphidisation of the mineralised stratigraphy. Faulting also influences the distribution of mineralisation.

Semi-regional to detailed aeromagnetic and gravity surveys have all been extremely effective for mapping stratigraphy, alteration and structure within the Benagerie Ridge Magnetic Complex. However, airborne EM data did not contain responses from the basement. The intense weathering associated with mineralisation is the cause of residual negative gravity anomalies with amplitudes of 1 to 2 mGal. Consequently, detailed gravity surveys have been very effective for identifying prospects within the region.

IP/resistivity and time-domain EM surveys were largely unsuccessful, with conductive overburden preventing responses from the mineralised stratigraphy being detected. However, complex IP/resistivity surveys detected responses that coincide with known areas of mineralisation. A lack of electrical continuity, due to poor development of massive sulphides, means downhole EM methods have been largely ineffective in the area.

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References

Clarke, G.W., Burg, J.P. and Wilson, C.J.L., 1986. Stratrgraphic and structural constraints on the Proterozoic tectonic history of the Olary Block, South Australia. Precambrian Research, 34, 107-137.
Conor, C.H.H., 2000. Definition of major sedimentary and igneous units of the Olary Domain, Cumamona Province. MESA Journal, 19, 51-56.
Flint, D.J. and Parker, A.J., 1993. Willyama Inhers. In, Drexel, J.F., Preiss, W.V. and Parker, A. J., (Eds), The Geology of South Australia, Volume 1 The Precambrian South Australia Geological Survey Bulletin, 54, 82-93.
Fullagar, P.K., Hughes, N.A. and Paine, J., 2000. Drilling-constrained 3D gravity interpretation. Exploration Geophysics 31, 17-23.
Hitzman, M., Oreskes, N. and Einaudi, M., 1992. Geological characteristics and tectonic setting of Proterozoic iron oxide (Cu-U-Au-REE) deposits. Precambrian Research, 58, 214-287.
Hughes, N. and Mclnnes, 1999. Application of regional and prospect scale geophysics over the Benagerie Ridge Magnetic Complex. SMEDG Exploration Under Cover Symposium, September 1999.
Isles, D., 1992. Benagerie Ridge Regional Geophysical Interpretation. Pasminco Exploration Report (unpublished).
Robertson, R.S., Preiss, W.V., Crooks, A.F., Hill, PW. and Sheard, M.J., 1998 Review of the Proterozoic geology and mineral potential of the Cumamona Province in South Australia. AGSO Journal of Australian Geology & Geophysics, 17, 169-182.
Teale, G.S., 2000. Known and potential mineralisation styles, Benagerie Ridge Magnetic Complex. MESA Journal, 19, 43-45.

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Article Type: Research Article

Keyword(s): Applied potential; Curnamona Province; Curnamona SH54-14; electromagnetics; gravity induced polarisation; magnetics; Proterozoic; resistivity; Willyama Supergroup

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oa Geophysical exploration for copper-gold mineralisation in the Benagerie Ridge Magnetic Complex, Curnamona Province, South Australia

Abstract

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