Ground Penetrating Radar of Neotectonic Folds and Faults in South-Central Australia: Evolution of the Shallow Geophysical Structure of Fault-Propagation Folds with Increasing Strain

S Sellmann; M Quigley; B Duffy; I Moffat

Journal article

Ground Penetrating Radar of Neotectonic Folds and Faults in South-Central Australia: Evolution of the Shallow Geophysical Structure of Fault-Propagation Folds with Increasing Strain

S Sellmann, M Quigley, B Duffy, I Moffat

Geosciences Switzerland | Published : 2022

DOI: 10.3390/geosciences12110395

Abstract

Using ground penetrating radar (GPR) we investigate the near surface (~0–10 m depth) geophysical structure of neotectonic fault-propagation folds and thrust faults in south-central Australia in varying stages of fold and fault growth. Variations in neotectonic fold scarp heights are interpreted to reflect variations in accumulated slip on the underlying reverse faults. Fold scarps on the Nullarbor and Roe Plains are characterized by broad, asymmetric morphologies with vertical displacements of ~5 to ~40 m distributed over 1 to 2 km widths (~0.5 to ~4 m per 100 m). Within increasing scarp height there is an increase in the frequency and spatial density of strong reflector packages in the hang..

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University of Melbourne Researchers

Mark Quigley Author

Brendan Duffy Author

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Grants

Awarded by Australian Research Council

Funding Acknowledgements

This research was funded by the Australian Research Council through the Discovery Grant #DP170103350. S. Sellmann received funding through the Melbourne Research Scholarship.