1. Contrasting rupture processes during the April 11, 2010 deep-focus earthquake beneath Granada, Spain
- Author
-
Bezada, M.J. and Humphreys, E.D.
- Subjects
- *
SURFACE fault ruptures , *STRAINS & stresses (Mechanics) , *OLIVINE , *EARTHQUAKES , *GEOLOGIC faults , *CRUST of the earth , *EARTH (Planet) - Abstract
Abstract: The Mw=6.3 deep-focus earthquake beneath Granada, Spain, in 2010 consisted of three resolvable sub-events occurring within a time span of 5s. Estimated sub-event seismic moment partitioning is 12%, 7% and 81%, respectively. All sub-events had similar focal mechanisms with a vertical and a near-horizontal nodal plane, and all occurred within 5km of each other at a similar depth, suggesting rupture on the near-horizontal nodal plane. However, directivity analyses indicate that the first sub-event ruptured unilaterally on the vertical plane. Its modeled rupture length of ∼9km and stress drop of ∼2MPa are typical of crustal earthquakes. In contrast, the following sub-events show no clear directivity. The third, best resolved, sub-event had a hypocenter ∼2km from the first and a focal mechanism indistinguishable from the first, but it had a rupture dimension of <6.5km and a stress drop of >40MPa. This requires an ambient stress field significantly greater than the stress drop of the first sub-event, implying that the first sub-event ruptured as a slip pulse with a transient weakening mechanism. The large stress drops of the second and third sub-events suggest a crack-like rupture without fault healing and with nearly total stress drop. Fault-zone melting and metastable olivine are viable mechanisms for these ruptures. In contrast, the rupture characteristics of the first sub-event seem incompatible with most mechanisms currently under consideration for deep-focus earthquakes. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF