Abstract
The destructive Zirkuh-e-Qa'enat earthquake of 1997 May 10, M(w) 7.2, M(s) 7.3, m(b) 6.3, produced 125 km of NNW-SSE right-lateral strike-slip surface faulting on the Abiz fault in the Sistan suture zone of eastern Iran: the longest known surface rupture associated with an Iranian earthquake. Analysis of the body-wave seismograms from the main shock shows that rupture occurred in four main subevents, propagating in a sequence from north to south. Although predominantly strike-slip, the orientation of the faulting in each subevent varies, with appreciable reverse components in the north-central part and at the southern end of the Abiz fault. This change in fault style along the Abiz fault inferred from the seismograms is also observed in the coseismic surface ruptures and the geomorphology. Average coseismic surface displacements were approximately 2 m, implying a static stress drop of only 5 bar (0.5 MPa). The 1997 surface ruptures followed clear traces of late Quaternary slip on the Abiz fault, and for its northern 50 km re-ruptured fault segments that had slipped in previous earthquakes of M(s) 6.0-6.6 in 1936 and 1979. The 1997 earthquake ruptured the northern end of the N-S right-lateral strike-slip system of the Sistan suture zone, ending where it abuts a system of E-W left-lateral strike-slip faults that have also slipped in large earthquakes during the last 30 yr. (Author)