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Stress Field Variation During the 2019 Ridgecrest Earthquake Sequence

Shuzhong Sheng, Lingsen Meng

2020Geophysical Research Letters29 citationsDOIOpen Access PDF

Abstract

Abstract We investigate the spatiotemporal variations of the stress field and the deviatoric stress associated with the 2019 Ridgecrest earthquake sequence using the USGS earthquake focal mechanisms. We find that while the M 6.4 foreshock causes no notable stress changes, the stress field adjustment due to the M 7.1 mainshock exhibits significant spatial complexities. The area of large stress change is generally correlated with the fault segments with large coseismic slip. Although there are no resolvable stress changes at the two terminal ends of the mainshock, the mainshock produces a ~5° clockwise rotation of the maximum horizontal stress (SHmax) near the M 6.4 foreshock epicenter. The inferred deviatoric stress is approximately 8.0 MPa, almost equivalent to the coseismic stress drop of 7.4 MPa in its epicenter area. Such nearly complete stress release is supported by the postseismic stress heterogeneity near the mainshock epicenter.

Topics & Concepts

EpicenterForeshockGeologySeismologyStress fieldStress (linguistics)ClockwiseDifferential stressGeodesyAftershockSlip (aerodynamics)Dynamic stressRotation (mathematics)GeometryDeformation (meteorology)Materials sciencePhysicsOceanographyMathematicsFinite element methodLinguisticsDynamic loadingThermodynamicsPhilosophyComposite materialearthquake and tectonic studiesHigh-pressure geophysics and materialsEarthquake Detection and Analysis
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