1887
ASEG2006 - 18th Geophysical Conference
  • ISSN: 2202-0586
  • E-ISSN:

Abstract

One of the most zircon-rich heavy mineral sand (HMS) deposits on Earth has been discovered in part due to interrogation of new geoscientific models. The minerals are associated with fossil beaches, which formed almost 40 million years ago, along a huge margin of the Eucla Basin, southern Australia. The exploration implications of the proposed new geoscientific models have been realised by exploration companies (eg. Iluka Resources & Adelaide Resources), resulting in the recent discoveries of new zircon-rich HMS deposits in the eastern basin. The new discoveries, namely Jacinth, Ambrosia and most recently Tripitaka in South Australia, are hailed as the most significant discoveries of their type in nearly 30 years. This exciting outcome highlights the innovative nature and quality of geoscientific research and demonstrates how the resources industry can translate this research into economic benefits. The research successfully addresses National Research Priority Three – frontier technologies to transform industry.

Our models of landscape evolution and revised interpretation of the dynamics of sediment accumulation in palaeorivers and associated shoreline deposits has been extensively utilised to develop a new understanding of Cainozoic marine transgressions and deposition in the region. GIS based palaeogeographic reconstructions were based on digital elevation models, remotely sensed imagery, geological and drillhole data, and sedimentological analysis.

On a more detailed scale, preliminary heavy mineral analyses utlising the AutoGeoSEM suggests that the heavy mineral suite at Jacinth is dominated by zircon, pseudorutile, rutile/anatase and ilmenite. Less common minerals include a variety of aluminosilicates (tourmaline), aggregates of hematite, quartz and clay, monazite and chromite. Our recent work indicates that the zircon contribution to this heavy mineral suite was dominantly derived from the Precambrian rocks of the Musgrave Province vs Officer Basin with minor grains from the Gawler Craton. We conclude that the Eucla Basin has become a world-class HMS province.

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2006-12-01
2026-01-21

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References

  1. Benbow, M. C. 1990. coastal dunes of the Eucla Basin, Australia. Geomorphology, 3, 9-29.
  2. Benbow, M.C., Lindsay, J.M. and Alley, N.F., 1995. Eucla Basin and palaeodrainage. In the Geology of South Australia, The Phanerozoic. (J. F. Drexel and W. V. Preiss, eds.), 2, 178-168. Mines and Energy, South Australia, Adelaide.
  3. Ferris, G. M., 1994. Review of heavy mineral sand exploration in South Australia: Eucla Basin. Department of Primary Industry and Resources South Australia Report Book 94/00022.
  4. Hou, B. and Warland, I., 2005. Heavy mineral potential of Eucla Basin, SA. - A world-class palaeo-beach placer province. MESA Journal, 37, 4-12.
  5. Hou, B., Frakes, L.A. and Alley, N.F., 2001. Development of geoscientific models for the exploration in Tertiary palaeochannels draining the Gawler Craton, SA. South Australia, Minerals and Energy Resources, Report Book 2001/021.
  6. Hou, B., Frakes, L.A., Alley, N.F. and D.A. Clarke, 2003a. Characteristics and evolution of the Tertiary palaeochannels in the NW Gawler Craton, South Australia. Australian Journal of Earth Sciences, 50, 215-230.
  7. Hou, B., Frakes, L.A., Alley, N.F. and P. Gammon, 2003b. Facies and Sequence stratigraphy of Eocene valley fills in Eocene palaeovalleys, the eastern Eucla Basin, South Australia. Sedimentary Geology, 163, 111-130.
  8. Hou, B., Frakes, L.A., Alley, N.F. and P. Heithersay, 2003c. Evolution of beach placer shorelines and heavy mineral deposition in the eastern Eucla Basin, South Australia. Australian Journal of Earth Sciences, 50, 955-965.
  9. Hou, B., Alley, N.F., Frakes, L. Stoian, L. and Cowley, W.M., 2006. Eocene stratigraphic succession in the Eucla Basin of South Australia and correlation to major regional sea-level events. Sedimentary Geology, 183, 297-319.
  10. Paine, M.D., Anand, R.R., Aspaniar, M., Fitzpatrick, R.R. and Verrall, M.R. Quantitative heavy mineral analysis of a Pliocene beach placer deposit in southeastern Australia using the AutoGeoSEM. Journal of Sedimentary Research, 75(4), 742-759.
  11. Roy, P.S. and Whitehouse, J., 2003. Changing Pliocene Sea Levels and the Formation of Heavy Minerals Beach Placers in the Murray Basin, Southeastern Australia. Economic Geology, 98, 975-983.
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  • Article Type: Research Article
Keyword(s): beach placers; Eucla Basin; new discoveries.

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