Characterising lithium host minerals within the lateritic duricrust, Greenbushes, Western Australia

Sophie Vuleta*; Monica LeGras; Raymond E Smith; Carsten Laukamp; Louise Schoneveld; Ravi Anand

doi:10.1080/22020586.2019.12073086

2nd Australasian Exploration Geoscience Conference: Data to Discovery

ISSN: 2202-0586
E-ISSN:

oa Characterising lithium host minerals within the lateritic duricrust, Greenbushes, Western Australia
Authors Sophie Vuleta*^a,g,h, Monica LeGras^b,g, Raymond E Smith^c,g, Carsten Laukamp^d,g, Louise Schoneveld^e,g and Ravi Anand^f,g
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^a [email protected] ^b [email protected] ^c [email protected] ^d [email protected] ^e [email protected] ^f [email protected] ^g CSIRO Mineral Resources ^h Curtin University
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2019, Issue 2nd Australasian Exploration Geoscience Conference: Data to Discovery, Dec 2019, p. 1 - 2
DOI: https://doi.org/10.1080/22020586.2019.12073086
- Published online: 01 Dec 2019

Abstract

Summary

Whilst detailed geochemical analyses have been conducted to mitigate the complications regolith cover poses to modern exploration efforts, less attention has been directed to the mineralogical associations that exist between lateritic residuum and potentially underlying intrusive-hosted Li-deposits. The characterisation of mineral hosts for Li in the lateritic duricrust would assist exploration efforts within poorly outcropping regions of Australia, by providing early indication and characterisation of potentially concealed deposits. Pisolitic laterite and lateritic duricrust from Greenbushes, Western Australia, was analysed as an example, using a suite of laband field mineralogical analytics, to understand the regolith mineralogical signature of buried Li ore.

The major and minor mineral phases, including the Li host minerals, in the regolith and underlying pegmatites are identified and compared. This provides insight into the distribution and mobility of Li in this setting, and the evolution of the Greenbushes ore deposit.

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2019-12-01

2026-01-14

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References

Kesler, S. E., Gruber, P. W., Medina, P. A., Keoleian, G. A., Everson, M. P., & Wallington, T. J. (2012). Global lithium resources: Relative importance of pegmatite, brine and other deposits. Ore Geology Reviews, 48, 55-69.
LeGras, M., Laukamp, C., Otto, A., Verrall, M., Francis, N., Narbey, M., Schoneveld, L. (2018). Measuring Lithium- Bearing Minerals with Infrared Reflectance Spectroscopy. Australian Geoscience Council Convention, 14-18.10.2018, Adelaide.
Partington, G. (1990). Environment and structural controls on the intrusion of the giant rare metal Greenbushes pegmatite, Western Australia. Economic Geology, 85(3), 437-456.
Singh, B. and Gilkes, R. (1993). Weathering of spodumene to smectite in a lateritic environment. Clays and Clay Minerals 41(5), 624-630.
Smith, R. E., Perdrix, J., & Davis, J. (1987). Dispersion into pisolitic laterite from the Greenbushes mineralized Sn-Ta pegmatite system, Western Australia. Journal of Geochemical Exploration, 28(1-3), 251-265.

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Article Type: Research Article

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oa Characterising lithium host minerals within the lateritic duricrust, Greenbushes, Western Australia

Abstract

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