Abstract:
The aim of this paper is to determine the strain rate tensor (SRT) for the Iranian region. In this study, (1) we apply a method of computation of the SRT never used for t...Show MoreMetadata
Abstract:
The aim of this paper is to determine the strain rate tensor (SRT) for the Iranian region. In this study, (1) we apply a method of computation of the SRT never used for the Iranian area and (2) we use a new GPS velocity field obtained from several previously published velocity fields. First, the method is described and tested on a synthetic case, which mimics the real Iranian case. The synthetic tests confirm that the method allows us to both retrieve high gradients of the strain rate field and reduce the effect of an erroneous velocity vector. Second, the method is applied to a real data set covering the Arabia-Eurasia collision zone in Iran. We particularly focus on the Zagros–Makran transition zone, the Central Iran region and the northernmost part of the Arabia-Eurasia collision zone (NW Iran–Caucasus–East Turkey). Whereas the main characteristics of the obtained SRT are consistent with known tectonic features, important new results are found in the Central Iran, with the strike-slip style along the Anar and Deshir faults, and the Zagros–Makran transition zone, with a north–south variation of the SRT along the Zendan–Minab–Palami fault system. We link these results to recent active tectonic studies.
Published in: Geophysical Journal International ( Volume: 197, Issue: 1, January 2014)
DOI: 10.1093/gji/ggt509