Ridgecrest aftershocks at Coso suppressed by thermal destressing
Abstract
Geothermal and volcanic areas are prone to earthquake triggering. The Coso geothermal field in California lies just north of the surface ruptures driven by the 2019 Ridgecrest earthquake (moment magnitude M_w = 7.1), in an area where changes in coseismic stress should have triggered aftershocks. However, no aftershocks were observed there. Here we show that 30 years of geothermal heat production at Coso depleted shear stresses within the geothermal reservoir. Thermal contraction of the reservoir initially induced substantial seismicity, as observed in the Coso geothermal reservoir, but subsequently depleted the stress available to drive the aftershocks during the Ridgecrest sequence. This destressing changed the faulting style of the reservoir and impeded aftershock triggering. Although unlikely to have been the case for the Ridgecrest earthquake, such a destressed zone could, in principle, impede the propagation of a large earthquake.
Additional Information
© 2021 Nature Publishing Group. Received 28 June 2020; Accepted 30 April 2021; Published 30 June 2021. This study was supported by the National Science Foundation via the IUCR center Geomechanics and Mitigation of Geohazards (award number 1822214) and via the Southern California Earthquake Center (SCEC). The SCEC is funded by NSF Cooperative Agreement EAR-1600087 and USGS Cooperative Agreement G17AC00047. Data availability: The seismic catalogue is publicly available from the Southern California Earthquake Data Center (https://scedc.caltech.edu/data/alt-2011-dd-hauksson-yang-shearer.html). The Coso field well location and flow rate data are available from the California Department of Conservation (https://maps.conservation.ca.gov/doggr/wellfinder, https://www.conservation.ca.gov/calgem/geothermal/manual/Pages/production.aspx). Simulation data are available in the Caltech data repository (https://doi.org/10.22002/D1.1455). Source data are provided with this paper. Code availability: The TOUGH–FLAC coupled simulator and all input files are available in the Caltech data repository (https://doi.org/10.22002/D1.1455). Author Contributions: K.I. carried out the data analysis and numerical simulations. E.R.H. computed the coseismic Coulomb stress changes. D.E. provided the simulator TOUGH–FLAC. K.I. and J.-P.A. designed the study and wrote the Article. All authors edited the manuscript. The authors declare no competing interests. Peer review information: Nature thanks Roland Burgmann, J. Ole Kaven and the other, anonymous, reviewer(s) for their contribution to the peer review of this work.Attached Files
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Additional details
- Eprint ID
- 108853
- Resolver ID
- CaltechAUTHORS:20210426-094559595
- NSF
- EAR-1822214
- Southern California Earthquake Center (SCEC)
- NSF
- EAR-1600087
- USGS
- G17AC00047
- Created
-
2021-07-06Created from EPrint's datestamp field
- Updated
-
2022-11-15Created from EPrint's last_modified field
- Caltech groups
- Center for Geomechanics and Mitigation of Geohazards (GMG), Division of Geological and Planetary Sciences (GPS), Seismological Laboratory