Inelastic response of compliant fault zones to nearby earthquakes
نویسنده
چکیده
[1] Using dynamic rupture models, we examine the response of compliant fault zones that surround pre‐existing faults to nearby earthquakes. We find that some portions of a compliant fault zone can experience inelastic deformation due to dynamic stress perturbations, while the remaining portions deform elastically. Inelastic response of the fault zone results in sympathetic fault‐parallel motion (i.e., consistent with long‐term geologic slip) across the fault, while elastic response causes retrograde motion (i.e., opposite to long‐term geologic slip) in the static displacement field. Inelastic deformation signals along fault zones detected geodetically may be used to constrain the stress state in the crust because inelastic response occurs only when the prestress level is close to material strength, which can be measured in the laboratory. Citation: Duan, B. (2010), Inelastic response of compliant fault zones to nearby earthquakes, Geophys. Res. Lett., 37, L16303, doi:10.1029/2010GL044150.
منابع مشابه
Reply to comment by Y. Fialko on “Deformation of compliant fault zones induced by nearby earthquakes: Theoretical investigations in two dimensions”
[1] Fault zone structure and properties may contain important information about past earthquake rupture and subsequent healing processes. Damaged fault zones are observed geologically in the field [e.g., Chester and Chester, 1998; Ben-Zion and Sammis, 2003]. Seismic studies have revealed the existence of low-velocity fault zones around active faults [e.g., Li et al., 1998; Ben-Zion et al., 2003...
متن کاملComment on “Deformation of compliant fault zones induced by nearby earthquakes: Theoretical investigations
[1] Duan et al. [2011] recently presented analysis of deformation caused by dynamic and static stress changes on fault zones that have reduced strength and effective elastic moduli relative to the ambient rocks. Low-rigidity fault zones were previously proposed to explain anomalous geodetic signals around major crustal faults in the vicinity of large earthquakes [e.g., Fialko et al., 2002; Fial...
متن کاملEvaluation of Nonlinear Response of Structures to Near-Fault Ground Motions and the Comparison of Results with Near-Fault Simulated Records
Near-fault ground motions have caused very much damage in the vicinity of seismic sources during recent earthquakes. It is well known that under specific circumstances, intensive ground shakings near fault ruptures may be characterized by short-duration impulsive motions. This pulse-type motion is generally particular to the forward direction, where the fault rupture propagates towards the site...
متن کاملA WAVELET-BASED PROCEDURE FOR MINING OF PULSE-LIKE GROUND MOTIONS FEATURES ON RESPONSE SPECTRA
The main objective of this paper is to present a wavelet-based procedure to characterize principle features of a special class of motions called pulse-like ground motions. Initially, continues wavelet transform (CWT) which has been known as a powerful technique both in earthquake engineering and seismology field is applied easily in automated detecting of strong pulse of earthquakes. In this pr...
متن کاملDeformation on nearby faults induced by the 1999 Hector Mine earthquake.
Interferometric Synthetic Aperture Radar observations of surface deformation due to the 1999 Hector Mine earthquake reveal motion on several nearby faults of the eastern California shear zone. We document both vertical and horizontal displacements of several millimeters to several centimeters across kilometer-wide zones centered on pre-existing faults. Portions of some faults experienced retrog...
متن کامل