Reflected seismic waves and their effect on strong shaking during the 1989 Loma Prieta, California, earthquake

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Reflected seismic waves and their effect on strong shaking during the 1989 Loma Prieta, California, earthquake

R. D. Catchings and W. M. Kohler

U.S. Geological Survey, 345 Middlefield Rd., Menlo Park, California 94025

Abstract

Our data indicate that critical and postcritical reflectionsfrom crustal layers and the Moho produced increased shakingat discrete distances along the San Francisco Peninsula duringthe 1989 Loma Prieta earthquake. These reflections may haveproduced an increase in amplitude that is as much as 10 timesgreater than that of the direct arrival. Peak amplitude-distancepatterns measured from explosive sources, synthetic seismograms,aftershocks, and the mainshock of the 1989 Loma Prieta earthquakeindicate that (1) point sources, such as explosions, producesimilar peak amplitude-distance relations as distributed, double-couplesources when the crustal structure is approximately a Poissonsolid; (2) peak amplitudes from smaller point sources (explosions)may be scaled to those of larger sources (earthquakes); and(3) reflections caused a pattern of high amplitudes at specificdistances along the San Francisco Peninsula that geographicallycorrelates with areas of reported damage following from theLoma Prieta mainshock. Our study indicates that critical andpostcritical reflections were stronger influences on the locationsof strong shaking than local geology because a number of sitesaround the San Francisco Bay that are underlain by unconsolidatedsediments experienced much less shaking than sites that wereunderlain by hard rock. Furthermore, some severely shaken hard-rocksites were farther from the epicenter than many of the lessseverely shaken "soft-sediment" sites. Models of the regionalcrustal structure and seismic-wave propagation paths may beuseful in identifying sites around the San Francisco Bay regionthat are at risk due to reflected seismic energy, and this typeof analysis may be useful in other seismically active regions.

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				T. Parsons Seismic-reflection evidence that the Hayward fault extends into the lower crust of the San Francisco Bay area, California Bulletin of the Seismological Society of America, October 1, 1998; 88(5): 1212 - 1223. [Abstract] [PDF]

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