Abstract
The post-rift succession of the Northern Carnarvon Basin (north-western Australia) has commonly been interpreted as a relatively simple and uniform sequence that records a transition from siliciclastic to carbonate sedimentation deposited on a passive margin. However, given the significant vertical and lateral variation in seismic facies visible on seismic data, this interpretation likely oversimplifies the depositional history of the margin. Regional composite seismic lines that cross most of the basin, integrated with lithological and biostratigraphic information from exploration wells, provide the context for a better understanding of the depositional processes and environments that characterize the post-rift continental margin succession. We show
that the sedimentary sequences deposited above the Valanginian breakup unconformity contain a wide variety of seismic facies that can be linked to a number of different marine depositional environments, with the greatest lateral variation occurring in the Turonian – Rupelian and in the Tortonian – Present. The former interval consists of three dominant seismic facies, namely polygonally faulted, incised, and parallel bedded, which we interpret to indicate a lateral transition from an environment primarily dominated by fine-grained pelagic/hemipelagic deposition to one dominated by energetic bottom currents that created both depositional and
erosional features, such as contourite drifts and associated moats. The latter interval is expressed by sigmoidal and continuous reflections which pass laterally into more chaotic reflection packages, which we interpret as clinoforms and mass-transport complexes (MTCs). The development of bottom currents may be connected to
changes in circulation associated with the opening of oceans adjacent to the northwest margin of Australia, while the MTCs may indicate increased regional seismic activity and slope instability resulting from the development of collisional plate boundaries. Definition of these sequences highlights the significant changes that have occurred in the sedimentary processes that operated on the margin, and their potential link to its tectonic evolution.
that the sedimentary sequences deposited above the Valanginian breakup unconformity contain a wide variety of seismic facies that can be linked to a number of different marine depositional environments, with the greatest lateral variation occurring in the Turonian – Rupelian and in the Tortonian – Present. The former interval consists of three dominant seismic facies, namely polygonally faulted, incised, and parallel bedded, which we interpret to indicate a lateral transition from an environment primarily dominated by fine-grained pelagic/hemipelagic deposition to one dominated by energetic bottom currents that created both depositional and
erosional features, such as contourite drifts and associated moats. The latter interval is expressed by sigmoidal and continuous reflections which pass laterally into more chaotic reflection packages, which we interpret as clinoforms and mass-transport complexes (MTCs). The development of bottom currents may be connected to
changes in circulation associated with the opening of oceans adjacent to the northwest margin of Australia, while the MTCs may indicate increased regional seismic activity and slope instability resulting from the development of collisional plate boundaries. Definition of these sequences highlights the significant changes that have occurred in the sedimentary processes that operated on the margin, and their potential link to its tectonic evolution.
| Original language | English |
|---|---|
| Article number | 106418 |
| Number of pages | 22 |
| Journal | Marine and Petroleum Geology |
| Volume | 156 |
| Early online date | 27 Jul 2023 |
| DOIs | |
| Publication status | Published - Oct 2023 |
Bibliographical note
AcknowledgementsWe would like to express our gratitude to Geoscience Australia for the provision of public domain seismic and well log data. All available datasets used in this research are open source, can be accessed through the National Offshore Petroleum Information Management System (NOPIMS; https://nopims.dmp.wa.gov.au/nopims). Schlumberger are thanked for the provision of Petrel software. Mulky Winata is supported by a collaborative PhD scholarship under the Aberdeen – Curtin Alliance (http://aberdeencurtinalliance.org/) namely between Curtin University (Perth, Australia) and the University of Aberdeen (Aberdeen, Scotland). Diego Kietzmann, Victorian Paumard, Marina Rabineau and two anonymous referees are thanked for their thoughtful reviews of earlier versions of this manuscript.
Data Availability Statement
Data will be made available on request.Keywords
- Seismic stratigraphy
- Seismic facies
- Bottom current
- Mass transport complexes
- Deep water sediments
- Passive margin
- Northern carnarvon basin
- Exmouth plateau
- North west shelf Australia
Access to Document
- Winata_etal_MPG_Regional_Seismic_Stratigraphic_VOR
0264-8172/© 2023 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/).