Modelling of earthquake locations and source parameters in Kachchh region to understand genesis of earthquakes

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Ó Indian Academy of Sciences (0123456789().,-volV)(0123456789( ).,-volV)

Modelling of earthquake locations and source parameters in Kachchh region to understand genesis of earthquakes BHOOPENDRA SINGH1,2,* and PRANTIK MANDAL2 1

Academy of ScientiBc and Innovative Research (AcSIR), CSIR–National Geophysical Research Institute, Uppal Road, Hyderabad, India. 2 CSIR–National Geophysical Research Institute, Uppal Road, Hyderabad, India. *Corresponding author. e-mail: [email protected] MS received 14 June 2018; revised 17 August 2019; accepted 28 August 2019

Modelling of earthquake source locations and parameters infers seismogenesis of earthquakes. In this study, we modelled the earthquake source locations through hypocenter location algorithm using the difference in arrival time of P and S waves and source parameters through the Levenberg–Marquardt nonlinear inversion method using S-wave spectra. A total of 340 aftershocks of 2001 Bhuj mainshock (1:8  Mw \4:3), which have occurred in Kachchh, Gujarat, India from January 2014 to January 2015, are located in this study. Out of 340 aftershocks, digital waveforms of 78 aftershocks (2:2  Mw \3:9) are used for estimation of the earthquake source parameters. The results obtained from earthquake locations show two clusters of seismicity along the Kachchh Mainland Fault (KMF) and North Wagad Fault (NWF) and three felt events (Mw  3:0); one along the Katrol Hill Fault (KHF) (Mw ¼ 3:3), two along the Banni Fault (BF) (Mw ¼ 3:0; 3:2). The generation of these three felt events is attributed to the triggering mechanisms caused by the migration of Cuids or the stress pulse generated by the 20 MPa stress drop of the Mw 7.7 Bhuj earthquake. A marked concentration of events is noticed in 15–30 km depth range, which could be attributed to the presence of a maBc intrusive body, resulting in stress build-up for earthquake generation in this region. The results of source parameters; seismic moment (M0), source radius (r) and stress drop (Dr) vary from 1.86 9 1012 to 3.2 9 1015 N m, 146–262 m and 0.04–5.73 MPa, respectively. The maximum stress drop value is estimated to be 5.73 MPa at 24 km depth for the largest studied event of Mw 3.9. Large stress drops are conBned to the 8–33 km depth range, which indicates the probable existence of the base of the seismogenic layer in this depth range. This observed large stress drops could be attributed to stresses induced by crustal maBc intrusive bodies and the presence of aqueous Cuids in the lower crust below the region. Keywords. Hypocenter; source parameters; felt events; aftershocks.

1. Introduction The Kachchh region (200 km 9 300 km) is a unique intra-plate region (1000 km away from the Himalayan plate boundary in the north and 400 km away from the Herat–Chaman plate

boundary in the west). This region experienced two massive (Mw 7.8 and 7.7) intraplate earthquakes namely; Allah-bund (1819) and Bhuj (2001). The 2001 Bhuj earthquake caused catastrophic damage and causalities to the state of Gujarat, killing about 14,000 persons and inj