Geophysical Characteristics of the Eloise Cu-Au Deposit North-West Queensland

R. F. Brescianini; M. W. Asten; N. McLean

doi:10.1071/EG992033

ISSN: 0812-3985
E-ISSN: 1834-7533

Geophysical Characteristics of the Eloise Cu-Au Deposit North-West Queensland
Authors R. F. Brescianini^a, M. W. Asten^b and N. McLean^c
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^a BHP Minerals Ltd, 3/3 Plain Street East Perth, , WA, 6004 ^b BHP Minerals Ltd, 801 Glenferrie Road Hawthorn, , VIC, 3122 ^c BHP Minerals Ltd, 4/152 Wharf Street Brisbane, , QLD, 4000
Publisher: Australian Society of Exploration Geophysicists
Source: Exploration Geophysics, Volume 23, Issue 1-2, Mar 1992, p. 33 - 42
DOI: https://doi.org/10.1071/EG992033
- Published online: 01 Mar 1992

Abstract

The Eloise Cu-Au deposit is located approximately 60 km south-east of Cloncurry in northwest Queensland. It is hosted within interpreted Early to Middle Proterozoic metasediments of the Soldiers Cap Group, and comprises a number of steeply plunging, structurally complex mineralised zones. The deposit is overlain by between 50 and 70 m of highly conductive, flat-lying Mesozoic age sediments.

Geophysical methods assumed leading roles in the discovery of the Eloise deposit. The systematic evaluation of linear aeromagnetic trends using moving-loop transient EM (TEM) profiling led to the initial recognition of the Eloise anomaly. Fixed-loop TEM surveying detailed a strong bedrock conductor broadly coincident with a moderately intense magnetic ridge. Drillhole END17, sited to test the conductive source, intersected 20 m of chalcopyrite-pyrrhotite mineralisation.

The geometry of the deposit limited the extent to which surface TEM methods could confidently define targets for subsequent drilling. As a consequence, downhole TEM was identified as an effective tool to guide exploration drilling. This technique proved extremely useful, both in detecting additional mineralised bodies and in helping to define the dip extent of the deposit.

Lines of gravity and dipole-dipole IP have also been completed over the deposit to further characterise its response. In both instances sizeable anomalies were recorded, attributable in part to a significant mafic alteration system associated with the mineralisation.

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References

Asten, M. W. (1988). ‘The down-hole magnetometric resistivity (DHMMR) method’. Explor. Geophys.19, 12–16.
Asten, M. W. (1992). ‘Interpretation of ground TEM data from conductive terranes’. Explor. Geophys.23, this issue.
Beardsmore, T. J., Newbery, S. P., and Laing, W. P. (1988). ‘The Maronan Supergroup: an inferred early volcanosedimentary rift sequence in the Mount Isa Inlier, and its implications for ensialic rifting in the Middle Proterozoic of north-west Queensland’. Precambrian Research40/41, 487-507.
Blake, D. H. (1987). ‘Geology of the Mount Isa Inlier and environs, Queensland and Northern Territory’. Bur. Miner. Resour. Aust. Bull.225, 1–83.
Dey, A., and Morrison, H. F. (1979). ‘Resistivity modelling for arbitrarily shaped two-dimensional structures (finite-difference)’. Geophys. Prosp.27, 106–136.

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Article Type: Research Article

Keyword(s): Cu-Au; downhole TEM; Eloise Mineral Deposit; gravity; IP; magnetics; Mt Isa Inlier; surface TEM

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Geophysical Characteristics of the Eloise Cu-Au Deposit North-West Queensland

Abstract

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