Anomalous statistics of aftershock sequences generated by supershear ruptures


https://doi.org/10.4081/rg.2012.e6
Vol. 2 No. 1 (2012): 7th International Workshop in Statistical Seismology, 2011
Published: 17 May 2012
supershear ruptures, Gutenberg- Richter scaling, aftershock statistics, modified Omori law, Båth’s law.
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Authors

Most earthquake ruptures propagate with speeds smaller than the Rayleigh wave velocity of the medium. These are called sub- Rayleigh ruptures. However, under suitable conditions, segments of otherwise sub- Rayleigh seismogenic ruptures can occasionally accelerate to speeds higher than the local shear wave velocity, giving rise to so-called supershear ruptures. The occurrence of supershear ruptures is usually associated with a locally higher value of pre-stress on the fault segment compared to the sub-Rayleigh segments of the same fault. Additionally, shear stress changes generated by the supershear rupture are radiated out unattenuated to distances comparable to the depth of rupture instead of rapidly decaying at much smaller distances from the rupture. This leads to aftershocks being distributed away from the fault on the supershear segment. This study attempts to verify whether these pre- and postseismic stress conditions and the resultant spatial aftershock distributions lead to discernible features in the statistical properties of the aftershock sequences of the earthquakes known to be associated with supershear ruptures. We analyze the Gutenberg-Richter scaling, the modified Omori law and Båth’s law for the aftershock sequences of two supershear mainshocks: the 1979 MW 6.5 Imperial Valley (California) and 2002 MW 7.9 Denali (Alaska) earthquakes. We observe that the b-value is always higher in the supershear zone than the rest of the sequence. We also observe that there is no systematic trend in the exponent of the modified Omori law when comparing the aftershocks in the supershear zone with the rest of the aftershocks. We argue that the b-value anomaly can be explained in terms of the off-fault distribution of aftershocks around the supershear segment of the rupture.

Supporting Agencies

This work has been supported by NSERC Discovery grant 355632-2008 and UWO ADF grant R4203A03 (P.B. and R.S.), the NSERC and Aon Benfield/ICLR Industrial Research Chair in Earthquake Hazard Assessment (K.F.T.)

Bhattacharya, P., Shcherbakov, R., Tiampo, K. F., & Mansinha, L. (2012). Anomalous statistics of aftershock sequences generated by supershear ruptures. Research in Geophysics, 2(1), e6. https://doi.org/10.4081/rg.2012.e6

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