Geophysics
Mohammadreza Jamalreyhani; Abdolreza Ghods; Seyyed Khalil Mottaghi; Esmail Shabanian; Morteza Talebian; Beijing Chen
Abstract
One of the main issues in Zagros is the extent that basement and the thick sedimentary layer participate in the observed seismicity. During Nov. 2013, five magnitude ~5 Mw events hit a region in the western end of Lurestan arc of Simply Folded Belt (SFB) of Zagros. We used the Iran-China temporary network ...
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One of the main issues in Zagros is the extent that basement and the thick sedimentary layer participate in the observed seismicity. During Nov. 2013, five magnitude ~5 Mw events hit a region in the western end of Lurestan arc of Simply Folded Belt (SFB) of Zagros. We used the Iran-China temporary network and data from regional permanent networks to relocate the events using a multiple event relocation method, calculate regional moment tensor and centeriod depths for the five moderate events and estimate a velocity model for the two nearby seismic stations using joint inversion of the receiver functions and dispersion curves. Our results show a seismic cluster of about 30 km long and 15 km width. The moment tensor solutions of the five moderate events indicate an almost pure thrust mechanism. The aftershock cloud indicate a low angle east dipping fault plane (i.e., , dip in the range of 23 o -39 o ) as the causative fault plane. The calculated centeroid of the five moderate events are about 14 km and the focal depth of all events calculated by multiple event relocation are about 10-16 km. The results indicate that the thickness of sedimentary column is less than 8 km and thus showing the whole seismic cluster happened within the basement. This observation proves wrong the hypothesis of vertical separation of mainshock and aftershocks in Ssimply folded belt FB of Zagros (Nissen et al. 2011) and implies that in the Lurestan arc the sedimentary layers are deformed aseismically.
Kh. Hessami Azar; Kh. Motaghi; M. Mostafazadeh
Abstract
In this study, we estimated a local seismic hazard map for the Alborz tectonic region located in north of Iran. The technique of mapping local recurrence time, TL, was used to map major asperities of the region and the asperities considered as the area with maximum hazard probability. The analysis was ...
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In this study, we estimated a local seismic hazard map for the Alborz tectonic region located in north of Iran. The technique of mapping local recurrence time, TL, was used to map major asperities of the region and the asperities considered as the area with maximum hazard probability. The analysis was done on the epicenter of more than 5000 events recorded in 19 stations of the Institute of Geophysics, University of Tehran (IGUT), during 1996-2008. Based on the idea that b-value is inversely related to applied stress, we calculated local b-values for each grid and areas with lowest b- and a-values, and as a result shortest TL were interpreted as asperities. Because the ruptures start from the asperities, the mentioned regions have considered as the region with the maximum seismic hazard. The rupture location of MW 6.3 Kojour-Firooz Abad earthquake compared to the recurrence time map and it resulted in the location of this event had showed anomalously short TL based on the background seismicity of region in a decade before it. We computed TL map based on the seismicity before and after Kojour-Firooz Abad earthquake and showed that this large event redistributed the applied stress in the Alborz region. Redistribution by large earthquake led to migration of the applied stress from west of region to east. Based on the microseismicity of the region after Kojour-Firouz Abad earthquake, there are three anomalies in TL map positioned in eastern Alborz. These anomalies are introduced as the regions with maximum seismic hazard for future large earthquake.
