Journal article
Crustal transpressional fault geometry influenced by viscous lower crustal flow
H Yang, LN Moresi, M Quigley, M Kahraman, D Kalafat
Geology | GEOLOGICAL SOC AMER, INC | Published : 2022
DOI: 10.1130/G50061.1
Abstract
The San Andreas fault (California, USA) is near vertical at shallow (<10 km) depth. Geophysical surveys along the San Andreas fault reveal that, at depths of 10–20 km, it dips ~50–70° to the southwest near the Western Transverse Ranges and dips northeast in the San Gorgonio region. We investigate the possible origin of along-strike geometric variations of the fault using a three-dimensional thermomechanical model. For two blocks separated by transpressional faults, our model shows that viscous lower crustal material moves from the high-viscosity block into the low-viscosity block. Fault plane-normal flow in the viscous lower crust rotates the fault plane due to the simple shear flow at the b..
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Awarded by Australian Research Council
Funding Acknowledgements
We thank S. Klemperer and G. Fuis for discussions on this work. This research was supported by the National Natural Science Foundation of China (42030306) and the Albert Shimmins Writing-Up Award from the University of Melbourne (Australia) to H. Yang, and by the Australian Research Council through Discovery Grant DP170103350 to M. Quigley and L. Moresi. Testing models were run in the National Computational Infrastructure, Canberra, Australia. The manuscript was significantly improved with the help of Bob Holdsworth, Taras Gerya and two anonymous reviewers.