Static stress drop in the 1994 Northridge, California, aftershock sequence

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Bulletin of the Seismological Society of America; December 1997; v. 87; no. 6; p. 1495-1501
© 1997 Seismological Society of America

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Static stress drop in the 1994 Northridge, California, aftershock sequence

Jeanne L. Hardebeck and Egill Hauksson

Seismological Laboratory California Institute of Technology, Pasadena, California 91125

Abstract

We use time-domain pulse widths to estimate static stress dropsfor 279 M_L 2.5 to 4.0 aftershocks of the 17 January 1994, M_W6.7 Northridge, California, earthquake. The stress drops obtainedrange from 0.02 to 40 bars, with a log average of 0.75 bar.Error bars computed for our estimates are typically a factorof 5, indicating that the three order of magnitude scatter instress drops is not solely a result of measurement errors andthat there is a significant amount of heterogeneity in the staticstress drops of the aftershocks. Stress drops might be expectedto increase with depth, since a fault can maintain a highershear load at higher confining pressures. We observe an increasein log average stress drop at about 15 km depth, which is statisticallysignificant at the 80% confidence level. The increase is dueprimarily to a lack of lower stress-drop events below this depthand may be controlled by material properties since the Northridgeaftershocks are observed to intersect an anomalously high-velocitybody at around this depth (Hauksson and Haase, 1997). An apparentincrease in stress drop with magnitude is also observed overthe entire magnitude range of the study, although whether thistrend is real or an artifact of attenuation of high frequenciesin the upper crust is unresolved.

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