Three-dimensional finite-difference modeling of the San Andreas fault: Source parameterization and ground-motion levels

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Three-dimensional finite-difference modeling of the San Andreas fault: Source parameterization and ground-motion levels

Robert W. Graves

Woodward-Clyde Federal Services, 566 El Dorado Street, Pasadena, California 91101rwgrave0{at}wcc.com

Abstract

Olsen et al. (1995) recently simulated an M_w 7.75 earthquakeon the San Andreas fault, predicting long-period (T > 2.5sec) ground velocities of 140 cm/sec in the Los Angeles basin,about 60 km from the fault. These motions are much larger thanestimates derived from empirical relations or other numericalsimulations. Standard area-magnitude relations predict thatthe 170 x 16 km fault used in the simulations would producean M_w 7.5 earthquake, giving a moment of 2.0 x 10²⁷ dyne-cm,which is 2.4 times smaller than the moment used by Olsen etal. (1995). Further, self-similar scaling predicts a rise timeof 3 sec for an M_w 7.75 event and 2.2 sec for an M_w 7.5 event.The filtered impulse slip function used by Olsen et al. (1995)has an effective rise time of 1.6 sec, yielding a response thatis about 2 times larger than expected for periods less than5 sec. This combination of high seismic moment and short risetime, along with the use of a uniform slip distribution, leadsto the extreme ground-motion levels predicted by Olsen et al.(1995).

To quantify the sensitivity of the long-period ground-motionresponse to source parameterization, we have performed 3D finite-difference(FD) simulations using various combinations of seismic moment,source rise time, and slip heterogeneity. These calculationsincorporate the same grid dimensions, fault size, and bandwidthemployed by Olsen et al. (1995). With a moment of 2.0 x 10²⁷dyne-cm, a rise time of 2 sec, and a smoothly heterogeneousslip distribution, we simulate peak long-period ground velocitiesof 155 cm/sec in the near-fault region and 40 cm/sec in theLos Angeles basin. These values are much closer to (althoughstill higher than) empirical predictions. A uniform slip distributionproduces the largest peak motions, both in the near-fault regionand in the Los Angeles basin, whereas a rough asperity slipdistribution noticeably reduces the maximum near-fault groundvelocities. Our results indicate that the accurate simulationof long-period ground motions requires a realistic source parameterization,including appropriate choices of seismic moment and rise time,as well as the use of spatial and temporal variations in slipdistribution.

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