Dynamic rupture and stress change in a normal faulting earthquake in the subducting Cocos plate

A large nearly vertical, normal faulting earthquake (M-w = 7.1) took place in 1997 in the Cocos plate, just beneath the ruptured fault zone of the gre at 1985 Michoacan thrust event (M-w = 8.1). Dynamic rupture and resultant s tress change during the 1997 earthquake have been investigated on the basis of near-source strong-motion records together with a 3-D dynamic model. Dynamically consistent waveform inversion reveals a highly heterogeneous di stribution of stress drop, including patch-like asperities and negative str ess-drop zones. Zones of high stress drop are mainly confined to the deeper , southeastern section of the vertical fault, where the maximum dynamic str ess drop reaches 280 bars (28 MPa). The dynamically generated source time f unction varies with location on the fault, and yields a short slip duration , which is caused by a short scalelength of stress-drop heterogeneities. Th e synthetic seismograms calculated from the dynamic model are generally con sistent with the strong-motion velocity records in the frequency range lowe r than 0.5 Hz. The pattern of stress-drop distribution appears, in some sense, to be consi stent with that of coseismic changes in shear stress resulting from the 198 5 thrust event. This consistency suggests that the stress transfer from the 1985 event to the subducting plate could be one of the possible mechanisms that increased the chance of the occurrence of the 1997 earthquake.