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Geoscience Visual Presentation G14: Shipwreck and Sherbrook supersequence regional gross depositional environments, offshore Otway Basin

Chris Nicholson A *
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A Geoscience Australia, Canberra, ACT, Australia.




Chris Nicholson graduated with a BSc (Hons) in Geology from the Australian National University in 2000. He joined Geoscience Australia in 2004 as Basin Analyst and Structural Geologist working on regional prospectivity studies of Australia’s offshore basins. Chris is a member of PESA and SEAPEX, and is a past president of PESA ACT.

* Correspondence to: Chris.Nicholson@ga.gov.au

Australian Energy Producers Journal 64 https://doi.org/10.1071/EP23431
Published: 7 June 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of Australian Energy Producers. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Geoscience Visual Presentation G14

The Shipwreck and Sherbrook supersequences together constitute the upper Cretaceous succession in the Otway Basin that was deposited during an extensional basin phase. In the Shipwreck Trough, where the upper Cretaceous succession is well explored, gas fields are hosted by the Shipwreck Supersequence (SS). Elsewhere, the upper Cretaceous interval is lightly explored, and the deep-water area is considered an exploration frontier. We present regional gross depositional environment (RGDE) maps for the LC1.1 and LC1.2 sequences of the Shipwreck SS, and the LC2 Sherbrook SS. Fluvial Plain, Coastal-Delta Plain and Shelf RGDEs were interpreted from wireline logs, cores, and seismic facies. The Fluvial Plain and Coastal-Delta Plain RGDEs are mostly restricted to the inboard platform areas and the inner Morum Sub-basin. The mud-prone Shelf RGDE is widespread across the deep-water Morum and Nelson depocentres. The extent of the Fluvial and Coastal-Delta Plain belts progressively increases up-section, imparting a regressive aspect to the succession, and delineating a large fluvial-deltaic complex in the north-west of the basin. Thick seal development across the greater Shipwreck Trough, potentially mature source rocks in the deep-water basin, and thick reservoir development in the hanging wall of growth faults in the inner Morum Sub-basin are insights derived from this study, and will inform area selection for detailed gross depositional environment mapping, formulation of new hydrocarbon and carbon dioxide storage plays, and inputs for petroleum systems modelling.

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Keywords: gross depositional environment, Morum Sub-basin, Nelson Sub-basin, Otway Basin, petroleum systems, seismic facies, Sherbrook Supersequence, Shipwreck Supersequence, Shipwreck Trough, Upper Cretaceous.

Biographies

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Chris Nicholson graduated with a BSc (Hons) in Geology from the Australian National University in 2000. He joined Geoscience Australia in 2004 as Basin Analyst and Structural Geologist working on regional prospectivity studies of Australia’s offshore basins. Chris is a member of PESA and SEAPEX, and is a past president of PESA ACT.