Regolith Mapping in Hypersaline Environments: A Comparison of SAM with Helicopter TEM

Edward M.G. Stolz

doi:10.1071/EG05157

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

Regolith Mapping in Hypersaline Environments: A Comparison of SAM with Helicopter TEM
Authors Edward M.G. Stolz^a
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^a Gold Fields St Ives Gold Mining Company, PO Box 359 Kambalda, WA, 6444, , Phone: 08 9088 1317, Facsimile: 08 9088 1112, Email: [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: Exploration Geophysics, Volume 36, Issue 2, Jun 2005, p. 157 - 162
DOI: https://doi.org/10.1071/EG05157
- Received: 31 Jan 2005
- Accepted: 13 Apr 2005
- Published online: 01 Jun 2005

Abstract

Direct detection of bedrock structures using conventional electromagnetic and electrical surveys is very difficult in terrains covered by regolith saturated with hypersaline groundwater. The resistivity contrast between the brine-saturated regolith and the fresh, crystalline bedrock is usually much greater than any resistivity contrast within the bedrock itself. Mapping bedrock faults and shears by detecting their expression as changes in depth of weathering at the base of the regolith is considered to be the most effective application of electromagnetic and electrical methods to gold exploration in hypersaline environments. SAM is more effective than airborne electromagnetics (HoistEM) for mapping the regolith expression of structures, because the SAM transmitter dipole enhances current channelling into linear features, and SAM collects much higher resolution data. The two-dimensional current flow from the SAM dipole transmitter produces clearer images of linear, low-resistivity features than does the three-dimensional “smoke ring” current flow induced by a time-domain electromagnetic loop transmitter. SAM surveys have imaged the base of regolith beneath 100 m of brine-saturated lake sediments, whereas airborne TEM transmitters have not resolved structure deeper than 50 m over the same ground.

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References

Boggs, D.B., Stanley, J.M., and Cattach, M.K., 1998, Feasibility studies of TFMMIP and TFEM surveying with sub-audio magnetics: Exploration Geophysics, 29, 290-295.
Emerson, D.W., 1997, The galvanic electrical resistivities of Archaean country rocks in the Kambalda region: unpublished Systems Exploration Pty Ltd report to WMC Resources Limited, 7pp.
Meyers, J.B., Worrall, L., Lane, R., and Bell, B., 2001, Exploring through cover - the integrated interpretation of high resolution aeromagnetic, airborne electromagnetic and ground gravity data from the Grant’s Patch area, Eastern Goldfields Province, Archaean Yilgarn Craton Part C: Combining geophysical methods for a holistic exploration model: Exploration Geophysics, 32, 198-202.
Meyers, J. B., Cantwell, N., Nguyen, P., and Donaldson, M., 2004, Sub-audio magnetic survey experiments for high-resolution surface mapping of regolith and mineralisation over a blind gold discovery near Agnew in Western Australia: 17th Geophysical Conference and Exhibition, Australian Society of Exploration Geophysics, Expanded Abstracts, 4pp.
Stolz, E.M., 2003, Direct detection of gold bearing structures at St Ives, WA - DHEM vs DHMMR: Exploration Geophysics, 34, 131-136.
Watchorn, R. B., 1998, Kambalda-St Ives gold deposits: in Berkman, D.A., and Mackenzie, D.H., (eds), Geology of Australian and Papua New Guinean mineral deposits: AUSIMM Monograph 22, 243-254.
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Article Type: Research Article

Keyword(s): gold; HoistEM; hypersaline; regolith; SAM; St Ives

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Regolith Mapping in Hypersaline Environments: A Comparison of SAM with Helicopter TEM

Abstract

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