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Institut für Geophysik
HPP P 5
ETH
Hönggerberg
CH 8093 Zürich
Switzerland
(S.W.,
M.G.)
Seismological Laboratory
California Institute of
Technology
Mail Code 252-21
1200 E. California Blvd.
Pasadena,
California 91125
(E.H.)
We investigate the spatial and temporal seismicity parameters and the
related probabilistic aftershock hazard for the aftershock sequence of the
1999 Mw 7.1 Hector Mine mainshock and compare it with the
neighboring 1992 Mw 7.3 Landers sequence. Using a catalog
of 11,000 earthquakes, we determine the earthquake size distribution
(b-value), the aftershock decay rate (p-value), and the
seismic activity rate (a-value). The b-values are high
(b > 1.2) within the rupture area, significantly lower (b
0.7) north of the rupture area, and increase with time since the
mainshock. Probabilistic aftershock hazard maps, computed automatically as
early as 4 days after the mainshock, identified the northernmost part of the
sequence as the highest-hazard region. These maps show a good agreement
between the forecasts and the recorded large aftershocks. Based on the
asymmetrical b-value and hazard patterns for both the Hector Mine and
Landers sequences, we hypothesize that the mainshock rupture directivity and
slip distribution influence aftershock hazard. Current static or dynamic
stress triggering models cannot resolve this spatial and temporal evolution of
the hazard. Stress tensor inversions of 1400 relocated first-motion focal
mechanisms show predominantly a strike-slip stress state with a SW–NE
trend of the greatest principal stress. The heterogeneity of the stress field
is unusually high near the Hector Mine and Landers mainshock ruptures,
particularly near patches of large slip.
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