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Study of the epicentral trends and depth sections for aftershocks of the 26th january 2001, Bhuj earthquake in Western India

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Abstract

The Geological Survey of India (GSI) established a twelve-station temporary microearthquake (MEQ) network to monitor the aftershocks in the epicenter area of the Bhuj earthquake (M w7.5) of 26th January 2001. The main shock occurred in the Kutch rift basin with the epicenter to the north of Bhachao village, at an estimated depth of 25 km (IMD). About 3000 aftershocks (M d ≥ 1.0), were recorded by the GSI network over a monitoring period of about two and half months from 29th January 2001 to 15th April 2001. About 800 aftershocks (M d ≥ 2.0) are located in this study. The epicenters are clustered in an area 60 km × 30 km, between 23.3‡N and 23.6‡N and 70‡E and 70.6‡E. The main shock epicenter is also located within this zone.

Two major aftershock trends are observed; one in the NE direction and other in the NW direction. Out of these two trends, the NE trend was more pronounced with depth. The major NE-SW trend is parallel to the Anjar-Rapar lineament. The other trend along NW-SE is parallel to the Bhachao lineament. The aftershocks at a shallower depth (<10km) are aligned only along the NW-SE direction. The depth slice at 10 km to 20 km shows both the NE-SW trend and the NW-SE trend. At greater depth (20 km–38 km) the NE-SW trend becomes more predominant. This observation suggests that the major rupture of the main shock took place at a depth level more than 20 km; it propagated along the NE-SW direction, and a conjugate rupture followed the NW-SE direction.

A N-S depth section of the aftershocks shows that some aftershocks are clustered at shallower depth ≤ 10 km, but intense activity is observed at 15–38 km depth. There is almost an aseismic layer at 10–15 km depth. The activity is sparse below 38 km. The estimated depth of the main shock at 25 km is consistent with the cluster of maximum number of the aftershocks at 20–38 km. A NW-SE depth section of the aftershocks, perpendicular to the major NE-SW trend, indicates a SE dipping plane and a NE-SW depth section across the NW-SE trend shows a SW dipping plane.

The epicentral map of the stronger aftershocksM ≥ 4.0 shows a prominent NE trend. Stronger aftershocks have followed the major rupture trend of the main shock. The depth section of these stronger aftershocks reveals that it occurred in the depth range of 20 to 38 km, and corroborates with a south dipping seismogenic plane.

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Authors and Affiliations

  1. Geological Survey of India(CR), Seminary Hills, 440 006, Nagpur, India

    S. G. Gaonkar, B. V. Srirama, S. R. Samaddar & D. V. Punekar

  2. Geological Survey of India(NR), Sector E, Aligunj, Lucknow, India

    Sagina Ram

  3. Geological Survey of India(ER), Karunamayee, Salt Lake, Kolkata, India

    Reena De

  4. Geological Survey of India(CGD), 27 J.N. Road, 700 016, Kolkata, India

    J. R. Kayal

Authors
  1. S. G. Gaonkar
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  2. B. V. Srirama
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  3. S. R. Samaddar
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  4. D. V. Punekar
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  5. Sagina Ram
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  6. Reena De
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  7. J. R. Kayal
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Gaonkar, S.G., Srirama, B.V., Samaddar, S.R. et al. Study of the epicentral trends and depth sections for aftershocks of the 26th january 2001, Bhuj earthquake in Western India. J Earth Syst Sci 112, 401–412 (2003). https://doi.org/10.1007/BF02709267

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  • DOI: https://doi.org/10.1007/BF02709267

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