1887
1st Australasian Exploration Geoscience Conference – Exploration Innovation Integration
  • ISSN: 2202-0586
  • E-ISSN:
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Abstract

The Greater McArthur Basin in northern Australia forms the world’s oldest potential unconventional gas play. It comprises Paleo- to Mid-Proterozoic sedimentary successions (i.e., the McArthur and Limbunya Groups) dominated by carbonate rocks (i.e., dolostones) deposited in various shallow marine to more restricted lagoonal and sabkha/playa evaporitic environments, while the associated organic-rich shales (i.e., the Barney Creek and Fraynes Formations) likely formed in relatively deeper and/or redox stratified depositional settings.

Here we use a multi-proxy approach based on the isotope tracers of carbon (813C) and strontium (87Sr/86Sr), and selected paleo-redox proxies (cerium anomalies: Ce/Ce*) to further constrain (i) temporal and spatial changes in the paleo-depositional environments and redox-structure of the basin, and also (ii) to test the applicability of the above isotope proxies for intra-basin correlations in the Greater McArthur Basin. This study presents the first continuous high-resolution 813C and 87Sr/86Sr isotope records acquired from two drill cores: LV09001 and Manbulloo-S1 (located more than 400 km from each other), which intersected the above Proterozoic carbonate and organic-rich sedimentary sequences (i.e., the Barney Creek and Fraynes Formations, dated at ~1640 5 million years) deposited in the central and western parts of the basin, respectively.

Importantly, our composite isotope trends from the Greater McArthur Basin (based on data from LV09001 and Manbulloo-S1) show consistent and systematic variations in the carbonate-based 813C, 87Sr/86Sr and Ce/Ce* proxy records that are tightly coupled to changes in the local depositional environments, the latter interpreted as oscillations between relatively open marine (suboxic to anoxic) and more restricted (anoxic to euxinic) conditions. Overall, our results indicate coherent basin-wide isotope patterns with characteristic isotope anomalies during the purported basin restriction (i.e., the deposition of organic-rich shales) the measured 813C and 87Sr/86Sr trends shift to isotopically lighter and more radiogenic values, respectively. These coherent isotope trends acquired from LV09001 and Manbulloo-S1 cores thus supports the proposed connectivity of the central and western parts of the basin, and the suitability of our multi-proxy isotope approach for future intra-basin correlation studies in the Greater McArthur Basin.

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2018-12-01
2026-01-14

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References

  1. Ahmad, M. and Dunster, J. (2013). Chapter 17: Birrindudu Basin: in Ahmad M and Munson TJ (compilers). Geology and mineral resources of the Northern Territory. Northern Territory Geological Survey, Special Publication, 5.
  2. Betts, P., Armit, R., Stewart, J., Aitken, A., Ailleres, L., Donchak, P. et al. (2016). Australia and nuna. Geological Society, London, Special Publications, 424(1), 47-81.
  3. Bullen, M., (2017) Isotopic Constraints on the Depositional Environment and Paleo-Redox Conditions of the Greater McArthur Basin, Northern Territory, Honours Thesis, University of Adelaide.
  4. Close, D., (2014). The McArthur Basin: NTGS’s approach to a frontier petroleum basin with known base metal prospectivity. Paper presented at the Annual Geoscience Exploration Seminar (AGES) 2014. Northern Territory Geological Survey.
  5. Fennel, K., Follows, M., and Falkowski, P. G. (2005). The co-evolution of the nitrogen, carbon and oxygen cycles in the Proterozoic ocean. American Journal of Science, 305(6-8), 526-545.
  6. Fry, B., Jannasch, H.W., Molyneaux, S.J., Wirsen, C.O., Muramoto, J.A. and King, S. (1991). Stable isotope studies of the carbon, nirogen, and sulfur cycles in the Black Sea and Cariaco Trench. Deep Sea Reearch Part A. 38, S1003-S1019.
  7. German, C.R., Holliday, B.P. and Elderfield, H. (1991) Redox cycling of rare earth elements in the suboxic zone of the Black Sea. Geochimica et Cosmochimica Acta, 55(12), 3553-3558.
  8. Giuliano, W. C. (2016). Isotope Constraints on Paleo-Depositional Environments and Intra-Basin Correlation in the Proterozoic McArthur Basin, Northern Territory, Australia, Honours Thesis, University of Adelaide.
  9. Halverson, G.P., Wade, B.P., Hurtgen, M.T. and Barovich K.M. (2010) Neoproterozoic chemostratigraphy. Precambrian Research, 182(4), 337-350.
  10. Johnston, D.T., Farquhar, J., Summons, R.E., Shen, Y., Kaufman, A.J., Masterson A.L., and Canfield, D.E. (2008) Sulfur isotope biogeochemistry of the Proterozoic McArthur Basin. Geochimica et Cosmochimica Acta, 72(17), 4278-4290.
  11. Kuznetsov, A.B., Melezhik, V.A, Gorokhov, I.M. et al., (2010) Sr isotope composition of Paleoproterozoic 13C-rich carbonate rocks. Precambrian Research, 182(4), 300-312.
  12. Rawlings, D. (1999). Stratigraphic resolution of a multiphase intracratonic basin system: the McArthur Basin, northern Australia. Australian Journal of Earth Sciences, 46(5), 703-723.
  13. Scott, D., Rawlings, D., Page, R., Tarlowski, C., Idnurm, M., Jackson, M., and Southgate, P. (2000). Basement framework and geodynamic evolution of the Palaeoproterozoic superbasins of north-central Australia: An integrated review of geochemical, geochronological and geophysical data. Australian Journal of Earth Sciences, 47(3), 341-380.
  14. Strauss, H., Des Marais, D.J., Hayes, J., and Summons, R.E. (1992) Proterozoic organic carbon - its preservation and isotopic record. Early Organic Evolution. Springer.
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  • Article Type: Research Article
Keyword(s): McArthur Basin; Proterozoic; Depositional Environments; Redox; Isotopes; Carbon; Strontium; Chemostratigraphy

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