Use of fault striations and dislocation models to infer tectonic shear stress during the 1995 Hyogo-Ken Nanbu (Kobe) earthquake

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Use of fault striations and dislocation models to infer tectonic shear stress during the 1995 Hyogo-Ken Nanbu (Kobe) earthquake

Paul Spudich, Mariagiovanna Guatteri, Kenshiro Otsuki and Jun Minagawa

U.S. Geological Survey, MS977, Menlo Park, California 94025spudich{at}usgs.gov
Department of Geophysics Stanford University, Stanford, California 94305patti{at}pangea.stanford.edu
Department of Geoenvironmental Sciences Tohoku University, Sendai 980, Japanotsuki{at}dges.tohoku.ac.jp
Dia Consultants Co. Ltd., Ikebukuro 3-1-2 Toshima-Ku, Tokyo 171, JapanJ.Minagawa{at}gen.diaconsult.co.jp

Abstract

Dislocation models of the 1995 Hyogo-ken Nanbu (Kobe) earthquakederived by Yoshida et al. (1996) show substantial changes indirection of slip with time at specific points on the Nojimaand Rokko fault systems, as do striations we observed on exposuresof the Nojima fault surface on Awaji Island. Spudich (1992)showed that the initial stress, that is, the shear tractionon the fault before the earthquake origin time, can be derivedat points on the fault where the slip rake rotates with timeif slip velocity and stress change are known at these points.From Yoshida's slip model, we calculated dynamic stress changeson the ruptured fault surfaces. To estimate errors, we comparedthe slip velocities and dynamic stress changes of several publishedmodels of the earthquake. The differences between these modelshad an exponential distribution, not gaussian. We developeda Bayesian method to estimate the probability density function(PDF) of initial stress from the striations and from Yoshida'sslip model. Striations near Toshima and Hirabayashi give initialstresses of about 13 and 7 MPa, respectively. We obtained initialstresses of about 7 to 17 MPa at depths of 2 to 10 km on a subsetof points on the Nojima and Rokko fault systems. Our initialstresses and coseismic stress changes agree well with postearthquakestresses measured by hydrofracturing in deep boreholes nearHirabayashi and Ogura on Awaji Island. Our results indicatethat the Nojima fault slipped at very low shear stress, andfractional stress drop was complete near the surface and about32% below depths of 2 km. Our results at depth depend on theaccuracy of the rake rotations in Yoshida's model, which areprobably correct on the Nojima fault but debatable on the Rokkofault. Our results imply that curved or cross-cutting faultstriations can be formed in a single earthquake, contradictinga common assumption of structural geology.

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