Abstract. The source process of the October 9, 1995, ColimaJalisco, Mexico, earthquake (Mw=8.0), and its largest foreshock and aftershock were determined from teleseismic body waves, using a least-squares inversion scheme. The three events are shallow-dipping, thrust-fault earthquakes, in agreement with the relative plate motions for Rivera-North America and CocosNorth America plate boundaries. Neither the foreshock nor the largest aftershock show significant differences in focal mechanism nor centroidal depth with respect to the average mechanism of the mainshock. The rupture of the mainshock began near the foreshock hypocenter and propagated, with a variable rupture velocity, towards the NW. The source-time function for this event shows four distinct episodes of energy release. About 50% of the moment was released at the northern end of the rupture, between 90 and 110 km from the epicenter. This rupture geometry is in agreement with crustal deformation observed inland using GPS measurements. However, the scalar seismic moment of the main shock obtained in this study Subruction zones with slow convergence rates, similar to the Rivera margin, exhibit long periods of interseismic activity between large earthquakes [Heaton and Hartzell, 1986]. This does not appear to be the case along the Jalisco-Colima margin. On October 9, 1995, a great earthquake hit the coastal towns of Colima and Jalisco, causing severe damage from both the shaking and the tsunami that followed the earthquake [Borrero et al., 1997]. The damage during this earthquake, unlike the 1932 earthquakes, was limited to the coast. This fact, in addition to the large discrepancy observed between the reported magnitudes (Ms=7.4 by PDE and Mw=8.0 by Harvard CMT), calls for a detailed source study of this event. Here we present a teleseismic body-wave analysis of the mainshock, the foreshock, and the largest aftershock.
