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

Permian sediments occur throughout the southern Sydney Basin, exposed on the coastline south of Wollongong, and penetrated by various boreholes. This study uses outcrop samples and samples from three boreholes held by NSW Resources and Energy at the core library at Londonderry (Department of Mines Callala DDH1 [Callala-1] from near Callala Bay, Elecom Clyde River DDH07 [ECR-7] from near Nowra, and Elecom Clyde River DDH01 [ECR-1] from near Wingello). Formations analysed include the Berry Siltstone, Nowra Sandstone, Wandrawandian Siltstone, the Snapper Point Formation, the Pebbley Beach Formation and the Yarrunga Coal Measures. The objectives are to determine the depositional environment, organic matter inputs, thermal maturity and petroleum generation potential of these formations, which were deposited when Australia was close to the South Pole. The rocks at outcrop and in ECR-1 are in the early oil window, while rocks from near Jervis Bay (Callala-1, ECR-7) are in the gas window. Total organic carbon content is heterogeneous and varies from 0.2-6.7%. The rocks were deposited in oxic to suboxic depositional environments. The Wandrawandian Siltstone contains biomarkers dominated by very high amounts of diahopanes and diasteranes, whereas these biomarkers are of lower relative abundance in the other formations. This is suggestive of a clay-rich sediment in an oxic, acid-catalysed depositional environment, with enhanced diagenetic alteration of the biomarkers, or alternatively an unusual organic input. The Pebbley Beach and Snapper Point formations are characterised by biomarker distributions dominated by terrigenously sourced terpanes (e.g. C24 tetracyclic terpane and C19 tricyclic terpane), corroborating their deltaic and shallow marine depositional environments, respectively. In contrast, the Wandrawandian Siltstone contains dominantly C21, C23, and C24 tricyclic terpanes. The Pebbley Beach Formation contains high amounts of C29 relative to C28 and C27 steranes, also consistent with a dominant terrigenous input.

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2018-12-01
2026-01-13

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References

  1. Aharonovich, S. and George, S.C., 2016, A possible shale gas prospect? First results of the organic composition and thermal maturity of the Carboniferous Namoi Formation, northern NSW, Australia. Australian Journal of Earth Sciences, 63, 771-780.
  2. Bann, K., Tye, S., MacEachern, J., Fielding, C., and Jones, B., 2008, Ichnological and sedimentological signatures of mixed wave- and storm-dominated deltaic deposits: examples from the Early Permian Sydney Basin, Australia. Recent Advances in Models of Siliciclastic Shallow-Marine Stratigraphy: SEPM, Special Publication, 90, 293-332.
  3. Bann, K.L., Fielding, C.R., MacEachern, J.A., and Tye, S.C., 2004, Differentiation of estuarine and offshore marine deposits using integrated ichnology and sedimentology: Permian Pebbley Beach Formation, Sydney Basin, Australia. Geological Society, London, Special Publications, 228, 179-211.
  4. Carey, J., 1978, Sedimentary environments and trace fossils of the Permian Snapper Point Formation, Southern Sydney Basin. Journal of the Geological Society of Australia, 25, 433-458.
  5. Eyles, C.H., Eyles, N., and Gostin, V.A., 1998, Facies and allostratigraphy of high-latitude, glacially influenced marine strata of the Early Permian southern Sydney Basin, Australia. Sedimentology, 45, 121-162.
  6. Fielding, C.R., Bann, K.L., Maceachern, J.A., Tye, S.C., and Jones, B.G., 2006, Cyclicity in the nearshore marine to coastal, Lower Permian, Pebbley Beach Formation, southern Sydney Basin, Australia: a record of relative sea-level fluctuations at the close of the Late Palaeozoic Gondwanan ice age. Sedimentology, 53, 435-463.
  7. Fielding, C.R., Frank, T.D., Birgenheier, L.P., Rygel, M.C., Jones, A.T., and Roberts, J., 2008, Stratigraphic imprint of the Late Palaeozoic Ice Age in eastern Australia: a record of alternating glacial and nonglacial climate regime. Journal of the Geological Society, 165, 129-140.
  8. Flannery, E.N. and George, S.C., 2014, Assessing the syngeneity and indigeneity of hydrocarbons in the similar to 1.4 Ga Velkerri Formation, McArthur Basin, using slice experiments. Organic Geochemistry, 77, 115-125.
  9. George, S.C. and Ahmed, M., 2002, Use of aromatic compound distributions to evaluate organic maturity of the Proterozoic middle Velkerri Formation, McArthur Basin, Australia. in M. Keep and S. J. Moss (eds.) West Australian Basins Symposium, Petrol. Expl. Soc. Aust., 252-270.
  10. Herbert, C. and Helby, R., 1980, A Guide to the Sydney Basin. Geological Survey of NSW Bulletin, 26, 603.
  11. Jarvie, D.M., Hill, R.J., Ruble, T.E., and Pollastro, R.M., 2007, Unconventional shale-gas systems: The Mississippian Barnett Shale of north-central Texas as one model for thermogenic shale-gas assessment. American Association of Petroleum Geologists Bulletin, 91, 475-499.
  12. Radke, M., Leythaeuser, D., and Teichmuller, M., 1984, Relationship between rank and composition of aromatic hydrocarbons for coals of different origins. Organic Geochemistry, 6, 423-430.
  13. Radke, M. and Welte, D.H., 1983, The Methyl Phenanthrene Index (MPI); a maturity parameter based on aromatic hydrocarbons. in M. Bjoray (ed.) Advances in Organic Geochemistry 1981, Wiley, 504-512.
  14. Thomas, S.G., Fielding, C.R., and Frank, T.D., 2007, Lithostratigraphy of the late Early Permian (Kungurian) Wandrawandian Siltstone, New South Wales: record of glaciation? Australian Journal of Earth Sciences, 54, 1057-1071.
  15. Tye, S.C., Fielding, C.R., and Jones, B.G., 1996, Stratigraphy and sedimentology of the Permian Talaterang and Shoalhaven Groups in the southernmost Sydney Basin, New South Wales. Australian Journal of Earth Sciences, 43, 57-69.
  16. van Aarssen, B.G.K., Bastow, T.P., Alexander, R., and Kagi, R.I., 1999, Distributions of methylated naphthalenes in crude oils: indicators of maturity, biodegradation and mixing. Organic Geochemistry, 30, 1213-1227.
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  • Article Type: Research Article
Keyword(s): Biomarkers; depositional environment; maturity; Permian; Sydney Basin

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