Journal article
Effects of source model variations on Coulomb stress analyses of a multi-fault intraplate earthquake sequence
H Mohammadi, M Quigley, S Steacy, B Duffy
Tectonophysics | ELSEVIER | Published : 2019
Abstract
Fault models are quickly produced and iteratively improved over weeks to years following a major earthquake, to characterise the dynamics of rupture, evaluate the role of stress transfer, and contribute to earthquake forecasting. We model Coulomb stress transfer (ΔCFS) between the largest foreshock (Mw 5.4; 1 year prior to first mainshock) and three Mw 6.1 to 6.5 earthquakes that occurred in a 12-hour period on January 22, 1988 in central Australia (Tennant Creek earthquake sequence) to investigate the role of static stress transfer in earthquake triggering relative to progressive source model development. The effects of fault model variance are studied using ΔCFS modelling of five different..
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Awarded by Australian Research Council
Funding Acknowledgements
This work was supported by the Australian Research Council (Discovery Grant #DP170103350). We wish to thank Kelin Wang (Editor in chief) and two anonymous reviewers for their comment and suggestions that improved the manuscript. Hiwa Mohammadi received a Baragwanath Travel Scholarship from the University of Melbourne to assist in research development.