Investigation of mechanism of earthquakes in active seismic areas around Tehran, Mashhad and Tabriz cities

Nemati, Majid; Naghdi Doudaran, Fatemeh

doi:10.22067/geoeh.2022.77045.1241

Investigation of mechanism of earthquakes in active seismic areas around Tehran, Mashhad and Tabriz cities

Document Type : Research Article

Authors

¹ 1- Department of Geology, Faculty of Science and Earthquake Research Center of Shahid Bahonar University of Kerman

² Department of Geology, Faculty of Science and Earthquake Research Center of Shahid Bahonar University of Kerman,

10.22067/geoeh.2022.77045.1241

Abstract

In this study the data required to solve the mechanism of earthquakes in this study were collected from a combination of waveform data from the Institute of Geophysics, the University of Tehran and the International Institute of Seismology and Earthquake Engineering. After editing the data, before processing the data, the first P-wave polarization method for the broadband, long-period and short-period seismic stations were used to solve the earthquake mechanism. The location error of these earthquakes was about 5 km and the maximum rotation of the nodal plains in the mechanisms was considered 5 degrees. These mechanisms have been processed with the least error in the number of wrong polarizations for seismic mechanisms around the most populous and important cities of Tehran, Mashhad, and Tabriz. Based on the solution of seismic mechanism in this study, Mosha, north Tehran, Ipack, Garmsar and Ivanki faults, are considered to have the dominant mechanism of strike-slip right lateral with the small normal component, reverse, strike-slip left lateral, strike-slip with small reverse component and inverted mechanism, respectively. This research showed that the faults around Mashhad city like Bahler and Ashkabad left lateral strike slip with a small reverse component and reverse, respectively. The dominant mechanism of the 2017 Fariman aftershocks, which is thought to have occurred in the termination of the Fariman fault, is also inverse with the strike-slip right lateral component. Also, the resolved mechanisms of earthquakes around the historical city of Tabriz show that earthquakes with a dominant mechanism of strike-slip right lateral with a small reverse component are related to the North Tabriz fault. Other earthquakes, which are the aftershocks of the 2012 Ahar-Varzeqan doublete earthquakes, also have a strike-slip right lateral with a small reverse component. The 2012 Ahar-Varzeqan earthquakes also have a pure right lateral mechanism.

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Journal of Geography and Environmental Hazards

Investigation of mechanism of earthquakes in active seismic areas around Tehran, Mashhad and Tabriz cities

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Articles in Press, Accepted Manuscript
Available Online from 12 July 2022

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Investigation of mechanism of earthquakes in active seismic areas around Tehran, Mashhad and Tabriz cities

Send comment about this article

Articles in Press, Accepted Manuscript Available Online from 12 July 2022

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History

Share

How to cite

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Articles in Press, Accepted Manuscript
Available Online from 12 July 2022