Sedimentary thickness across Australia from passive seismic methods

<div>Around the world the Earth's crust is blanketed to various extents by sedimentary cover. For continental regions, knowledge of the distribution and thickness of sediments is crucial for a wide range of applications including seismic hazard, resource potential, and our ability to constrain the deeper crustal geology. Excellent constraints on the sedimentary thickness can be obtained from borehole drilling or active seismic surveys. However, these approaches are expensive and impractical in remote continental interiors such as central Australia. </div><div><br></div><div>Recently, a method for estimating the sedimentary thickness using passive seismic data, the collection of which is relatively simple and low-cost, was developed and applied to seismic stations in South Australia. This method uses receiver functions, specifically the time delay of the \P{}-to-\S{} converted phase generated at the sediment-basement interface, relative to the direct-P arrival, to generate a first order estimate of the thickness of sedimentary cover. In this work we expand the analysis to the vast array of over 1500 seismic stations across Australia, covering an entire continent and numerous sedimentary basins that span the entire range from Precambrian to present-day. We compare with an established yet separate method to estimate the sedimentary thickness, which utilises the autocorrelation of the radial receiver functions to ascertain the two-way travel-time of shear waves reverberating in a sedimentary layer.</div><div><br></div><div>Across the Australian continent the new results clearly match the broad pattern of expected sedimentation based on the various geological provinces. Furthermore we are able to delineate the boundaries of many sedimentary features, such as the Eucla and Murray Basins, which are Cenozoic, and the boundary between the Karumba Basin and the mineral rich Mount Isa Province. The signal is found to diminish for older Proterozoic basins, likely due to compaction and metamorphism of the sediments over time. Finally, a comparison with measurements of sedimentary thickness from local boreholes allows for a straightforward predictive relationship between the delay time and the cover thickness to be defined. This offers future widespread potential, providing a simple and cheap way to characterise the sedimentary thickness in under-explored areas from passive seismic data. </div><div><br></div><div>This study and some of the data used are funded and supported by the Australian Government's Exploring for the Future program led by Geoscience Australia.</div>

<b>Citation:</b> Augustin Marignier, Caroline M Eakin, Babak Hejrani, Shubham Agrawal, Rakib Hassan, Sediment thickness across Australia from passive seismic methods, <i>Geophysical Journal International</i>, Volume 237, Issue 2, May 2024, Pages 849–861, <a href=" https://doi.org/10.1093/gji/ggae070">https://doi.org/10.1093/gji/ggae070</a>

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Date (Creation)
2023-11-04T20:00:00
Date (Publication)
2024-04-05T00:55:27
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Geoscience Australia Persistent Identifier/https://pid.geoscience.gov.au/dataset/ga/149040

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Marignier, A.

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Eakin, C. M.

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Hejrani, B.

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Agrawal, S.

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Hassan, R.

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Oxford University Press on behalf of The Royal Astronomical Society

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Geophysical Journal International

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Volume 237, Issue 2, May 2024

Page

849-861

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Manuscript to be submitted to Geophysical Journal International.

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Completed
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Minerals, Energy and Groundwater Division

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Commonwealth of Australia (Geoscience Australia)

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Hejrani, B.

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  • Geoscientific information

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Product data repository: Various Formats

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Data Store directory containing one or more files, possibly in a variety of formats, accessible to Geoscience Australia staff only for internal purposes

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  • Exploration For the Future - EFTF

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  • Australia’s Resources Framework - ARF

Keywords

  • sedimentary cover

Keywords

  • passive seismic

Keywords

  • reciever functions

Keywords

  • Cover thickness

theme.ANZRC Fields of Research.rdf

  • Seismology and Seismic Exploration

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  • Published_External

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Creative Commons Attribution 4.0 International Licence

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CC-BY

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4.0

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(c) The Authors(s) 2024

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Australian Government Security Classification System

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2018-11-01T00:00:00
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Australian Government Security Classification System

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English
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Commonwealth of Australia (Geoscience Australia)

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<div>A manuscript to be submitted to Geophysical Journal International. </div>

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Australian Government Security Classification System

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2018-11-01T00:00:00
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https://www.protectivesecurity.gov.au/Pages/default.aspx

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Unclassified

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urn:uuid/55445d36-0790-469b-8d16-e838da8cc371

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English
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UTF8
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Commonwealth of Australia (Geoscience Australia)

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Hejrani, B.

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Journal Article / Conference Paper

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Geoscience Australia - short identifier for metadata record with

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eCatId/149040

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https://ecat.ga.gov.au/geonetwork/srv/eng/catalog.search#/metadata/55445d36-0790-469b-8d16-e838da8cc371

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https://ecat.ga.gov.au/geonetwork/js/eng/catalog.search#/metadata/55445d36-0790-469b-8d16-e838da8cc371

Date info (Creation)
2023-11-03T00:33:07
Date info (Revision)
2023-11-03T00:33:07

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AU/NZS ISO 19115-1:2014

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Title

ISO 19115-1:2014

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Title

ISO 19115-3

Title

Geoscience Australia Community Metadata Profile of ISO 19115-1:2014

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Version 2.0, September 2018

Citation identifier
http://pid.geoscience.gov.au/dataset/ga/122551

 
 

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Keywords

Australia’s Resources Framework - ARF Exploration For the Future - EFTF
theme.ANZRC Fields of Research.rdf
Seismology and Seismic Exploration

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