Implications of structural segmentation during earthquakes: the 1995 Egion earthquake, Gulf of Corinth, Greece

The Egion earthquake which occurred in the Gulf of Corinth, central Greece (Ms = 6.2) on 15 June 1995 was caused by normal slip on the north-dipping and WNW-trending Egion fault. The Egion fault ruptured at depth during the Egion mainshock and probably re-ruptured at shallow level during the largest aftershock. The surface trace of the Egion fault has a segmented geometry. Linkage between three segments, which show long-term deformation differences as well as coseismic segmentation, enabled all segments to be incorporated in an earthquake segment. The surface ruptures continued to grow after the coseismic motion; the afterslip throw of the fault 10 weeks after the main event was equal to the 3 cm value for maximum coseismic slip. This afterslip was accompanied by uplift of the footwall block and a warp-like hangingwall subsidence (folding). This pattern of deformation was associated with more complex deformation at the western end of the earthquake segment. Here, afterslip was accompanied by general subsidence of the whole area (between 25th June and 30th July), followed by uplift of the whole area without afterslip (between 30th July and 2nd September). The afterslip-rate averaged over the 73 day period after the main event varied from 0.48 mm day⁻¹ along the central part of the earthquake segment to 0.16 mm day⁻¹ at the eastern end of the earthquake segment.