Heterogeneous distribution of dynamic stress drop and relative fault strength recovered from the results of waveform inversion: the 1984 Morgan Hill, California, earthquake

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Heterogeneous distribution of dynamic stress drop and relative fault strength recovered from the results of waveform inversion: the 1984 Morgan Hill, California, earthquake

Takeshi Mikumo¹ and Takashi Miyatake

Centro Nacional de Prevencion de Desastres, Mexico 04360 D. F., Mexico
Earthquake Research Institute University of Tokyo, Tokyo 113, Japan

Abstract

The dynamic rupture process of the 1984 Morgan Hill, California,earthquake (M = 6.2) has been investigated on the basis of athree-dimensional (3D) dynamic shear crack model, from previouswaveform inversion results. For this purpose, a locking fracturecriterion is introduced for rupture propagation, from whicha lower bound of the peak shear stress just before rupturing,and hence of the relative fault strength, has been estimatedat each fault segment. The distribution of static and dynamicstress drops has also been independently evaluated from thatof fault slips by linear and nonlinear inversion procedures,respectively.

The results show that large slips located from the hypocenterto about 10 km and 14 to 17 km along the strike at depths between8 and 12 km result from local dynamic stress drops exceeding40 and 140 bars, respectively. Negative stress drops down to–15 bars are required to explain very low slips over ashallow fault section. If a non-negative stress-drop conditionis imposed, somewhat larger slips are obtained there than thosefrom the waveform inversion. The above results suggest thatthere could be a zone of velocity-strengthening frictional behaviorin the shallow crust, which may have arrested slip motion duringrupture propagation. The strength excess is found to be generallysmall but somewhat larger at a small zone that has delayed rupturepropagation. The dynamic rupture initiated from a small nucleuszone with a low stress drop, propagated southeastward, breakingthe deeper fault section with high stress drop, and then brokea relatively high strength zone after a short time of arrest,with highest stress drop.

Footnotes

^¹ Present address: Instituto de Geofisica, Universidad NacionalAutonoma de México, Mexico 04510 D.F., Mexico.

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