Temporal stability of P-velocity anisotropy before earthquakes in central California

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Bulletin of the Seismological Society of America; August 1977; v. 67; no. 4; p. 1075-1090
© 1977 Seismological Society of America

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Temporal stability of P-velocity anisotropy before earthquakes in central California

J. ALAN STEPPE, WILLIAM H. BAKUN and CHARLES G. BUFE

OFFICE OF EARTHQUAKE STUDIES U.S. GEOLOGICAL SURVEY, 34 MIDDLEFIELD ROAD MENLO PARK, CALIFORNIA 94025

Abstract

An examination of P-wave travel-time residuals from small earthquakes(source events) located near three larger earthquakes (4 $less double equals$ M $less double equals$ 5) that occurred on the San Andreas fault, near Bear Valleyin central California, shows no temporal variations in the residualsextending over broad azimuth ranges ( ${Delta}$ ${varphi}$ > $~$ 40°). Such variationscould have resulted from changes in horizontal velocity anisotropyprecursory to the larger events. The examination also shows(1) numerous azimuthal variations in the residuals within narrowazimuth bands ( ${Delta}$ ${varphi}$ < $~$ 30°), apparently due to spatial heterogeneityof crustal velocity, (2) a dependence of residual on magnitudefor a few stations but not for most stations, and (3) trendsof residual versus source event focal depth for about one-thirdof the 75 source region-station pairs examined. Residuals inthese cases typically change by 0.1 sec, and occasionally by0.2 to 0.3 sec, over the 2- to 12-km focal depth range sampled.The trends vary from station to station in a complex manner.The assumption that traveltime changes are reflected in theresiduals is tested by modifying arrival times from some sourceevents according to assumed forms for the travel-time change,relocating those events, and comparing the resulting residualswith those from the unmodified data.

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