An integrated 3D velocity inversion--joint hypocentral determination relocation analysis of events in the Northridge area

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An integrated 3D velocity inversion—joint hypocentral determination relocation analysis of events in the Northridge area

Jose Pujol

Center for Earthquake Research and Information The University of Memphis, Memphis, Tennessee 38152

Abstract

A subset of 3371 events recorded in the Northridge area by theSouthern California Seismic Network during January to April1994 was relocated with the joint hypocentral determination(JHD) technique. This analysis showed two unexpected results:(a) the JHD locations are shifted about 3.9 km on average ina northwest direction with respect to the locations determinedusing a single-event location (SEL) program, and (b) the stationcorrections vary between –0.55 and 1.26 sec, a ratherlarge range. In addition, the JHD locations are less scatteredthan the SEL locations. For each station, the weighted averageof the arrival time residuals obtained when the events are locatedwith the SEL program (which does not apply distance or errorweighting) are generally smaller than the corresponding JHDcorrections. The locations determined with SEL and using theweighted average residuals as station corrections do not differmuch from the SEL locations, but on average the RMS residualsbecome as small as those corresponding to the JHD locations.As the magnitude of the station corrections indicates the presenceof large lateral velocity variations, a 3D velocity model forthe area was determined using the arrival times of 1012 eventsrecorded by at least 17 stations. The initial velocity modelwas that used routinely by the Southern California EarthquakeCenter. The first two layers (5.5- and 10.5-km thick) were subdividedinto 100 blocks each (12 x 12 km). These layers show a pronouncedlow-velocity anomaly (24% and 16%, respectively) immediatelyto the northwest of the epicentral area. This low-velocity zonecoincides with the west Ventura Basin. Another pronounced low-velocityzone to the southeast of the epicentral area reflects the presenceof the Los Angeles Basin. The locations obtained with the 3Dvelocity model are consistently to the southeast of the JHDlocations, 2.4 km on average. To establish the effect of thesepronounced lateral velocity variations on the SEL and JHD locations,synthetic travel times were analyzed. The synthetic times weregenerated for event locations determined by JHD (shifted byvarious amounts) and the 3D velocity model and were subsequentlytreated as the actual data. The most important result of thisanalysis is that the JHD locations are affected by a quasi-systematicshift in a northwest direction (up to about 2.7 km on average,depending on the initial shift) but that the relative locationsare well preserved. Therefore, both the velocity inversion ofthe actual data and the analysis of the synthetic data indicatethat the JHD locations determined for the actual data are quasi-systematicallymislocated. To account for this mislocation, an overall shiftof 2.5 km to the southeast was applied to all the JHD locations.One of the most important implications of the shifted locationsis the possibility that the northeasterly dipping Santa Susanafault, to the northwest of the epicentral area, was seismicallyactive during the aftershock sequence. This feature is morediffuse in other published locations.

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