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1819 Rann of Kutch earthquake

Coordinates: 23°00′N 71°00′E / 23.0°N 71.0°E / 23.0; 71.0
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(Redirected from Allah Bund)
1819 Rann of Kutch earthquake
1819 Rann of Kutch earthquake is located in India
1819 Rann of Kutch earthquake
Local date16 June 1819 (1819-06-16)
Local time18:45 to 18:50
Magnitude7.7–8.2 Mw
Epicenter23°00′N 71°00′E / 23.0°N 71.0°E / 23.0; 71.0
Areas affectedIndia, Gujarat
Max. intensityMMI XI (Extreme)[1]
Tsunamilocal
Casualties>1,543[2]
Satellite photo showing location of the Allah Bund and Lake Sindri

The 1819 Rann of Kutch earthquake occurred at about 18:45 to 18:50 local time on 16 June 1819. It had an estimated magnitude ranging from 7.7 to 8.2 on the moment magnitude scale and a maximum perceived intensity of XI (Extreme) on the Mercalli intensity scale. It triggered a tsunami and caused at least 1,543 deaths.[2] The earthquake caused an area of subsidence that formed the Sindri Lake and a local zone of uplift to the north about 80 km (50 mi) long, 6 km (3.7 mi) wide and 6 m (20 ft) high that dammed the Koree / Kori / Puran / Nara river. This natural dam was known as the Allah Bund ("Dam of God").

Tectonic setting

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The Kutch District of modern-day Gujarat lies on the Indian plate, 300–400 km (190–250 mi) southeast of the plate boundary between the Indian plate and the Eurasian plate, but the current tectonics is still governed by the effects of the continuing continental collision along this boundary. During the break-up of Gondwana in the Jurassic period, this area was affected by rifting with a roughly west–east trend. During the collision with Eurasia the area has undergone shortening, involving both reactivation of the original rift faults and the development of new low-angle thrust faults. The related folding has formed a series of ranges, particularly in central Kutch. The focal mechanism of most earthquakes is consistent with reverse faulting on reactivated rift faults. The 2001 Gujarat earthquake was caused by movement on a previously unknown south-dipping fault, trending parallel to the inferred rift structures.[3]

Earthquake

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The earthquake lasted for two to three minutes. It was felt over an enormous area, from Chennai to Kolkata in the east, as far north as Kathmandu and as far west as Balochistan. The main shock was followed by prolonged aftershock activity, with major earthquakes continuing for at least 50 years, including one with estimated magnitude of more than 6.5 in 1846.[4]

Maximum displacement during the earthquake is estimated at 12 m (39 ft), based on the height of the bund and the amount of subsidence to the south. Combined with a lateral extent of at least 80 km (50 mi), this gives an estimated moment magnitude of 7.7±0.2. This matches well with magnitudes estimated using both the total felt area and the area of VIII intensity.[4] Other estimates based on intensity measurements give magnitudes as high as 8.2.[5]

Modelling of the surface deformation indicates that the fault that slipped during the earthquake dipped to the north at between about 50°–67°. As faults that dip in excess of 50° are normally unfavourable for slip, it has been suggested that there was relatively high pore-fluid pressure developed at depth to allow this displacement to occur.[4] There is evidence that the Indus river shifted westwards after this earthquake.[6]

Allah Bund

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1854 map of the region by George Bellas Greenough

The most obvious topographic effect of this earthquake was the formation of a ridge about 6 m (20 ft) high, extending for 80 km (possibly as much as 150 km (93 mi)) that formed a natural dam across the Puram or Kori River.[7][8] To distinguish it from the man-made dams that were common in the region, the uplifted area became known as the Allah Bund, or Dam of God.[4] The mound produced had a markedly asymmetric geometry, with a shorter and steeper south-dipping margin, about 600 m wide and a dip of 0.65°, and a broader north-dipping margin over 5 km wide with a dip of only about 0.05°.[4]

Sindri Lake

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Sindri Lake, with a surface area of more than 1,000 km2 (390 sq mi), was formed due to subsidence of up to 3 m (9.8 ft) south of the Allah Bund. Initially, the lake was cut off from the river (damming further upstream had stopped the flow) and was filled with seawater. On the western margin of the lake a small delta built out from the eastern part of the larger Indus Delta. After 1826 the river broke through the artificial dam and eventually broke through the bund itself, causing the lake to become freshwater again.[4]

Later earthquakes

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The 1956 Anjar earthquake was due to reverse faulting, similar in type to that which is thought to have caused the 1819 Rann of Kutch earthquake.[9]

Changes in stress caused by coulomb stress transfer due to the 1819 earthquake may have been sufficient to trigger the 2001 Bhuj earthquake and other historic earthquakes that occurred in the region during the intervening period.[10]

Tsunami

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There was a local tsunami that flooded the area known as the Great Rann immediately after the earthquake. The fort at Sindri was destroyed by the earthquake and then partly submerged by the tsunami, "forcing survivors to climb to the top of the ruins."[4]

Damage

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The towns of Kothara, Mothala, Naliya and Vinzan suffered particularly heavy damage. Anjar, Bhuj, Lakhpat, Mandvi and Tera were also severely affected.[2] At least 1,543 people were killed in the larger towns; the number of casualties in smaller towns and villages is unknown. There was some degree of damage to buildings over most of Gujarat, including the destruction of the "shaking minarets" of the Jama Masjid in Ahmedabad. At Jaisalmer in Rajasthan, "at least 500 guests were smothered at a wedding feast".[2]

See also

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References

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  1. ^ National Geophysical Data Center / World Data Service (NGDC/WDS): NCEI/WDS Global Significant Earthquake Database. NOAA National Centers for Environmental Information (1972), Significant Earthquake Information, NOAA National Centers for Environmental Information, doi:10.7289/V5TD9V7K, retrieved 30 July 2022
  2. ^ a b c d Martin, S.; Szeliga W. (2010). "Electronic Supplement to A Catalog of Felt Intensity Data for 570 Earthquakes in India from 1636 to 2009". Bulletin of the Seismological Society of America. 100 (2): 562–569. Bibcode:2010BuSSA.100..562M. doi:10.1785/0120080328. Archived from the original on 11 December 2013. Retrieved 2 April 2012.
  3. ^ Bodin, P.; Horton S. (2004). "Source Parameters and Tectonic Implications of Aftershocks of the Mw 7.6 Bhuj Earthquake of 26 January 2001" (PDF). Bulletin of the Seismological Society of America. 94 (3): 818–827. Bibcode:2004BuSSA..94..818B. doi:10.1785/0120030176. Retrieved 2 April 2012.
  4. ^ a b c d e f g Bilham, R. (1998). "Slip parameters for the Rann of Kachchh, India, 16 June 1819 earthquake, quantified from contemporary accounts" (PDF). In Stewart I.S. & Vita-Finzi C. (ed.). Coastal tectonics. Special Publications. Vol. 146. London: Geological Society. pp. 295–319. ISBN 9781862390249. Retrieved 2 April 2012.
  5. ^ Ambraseys, N.N.; Douglas J. (2004). "Magnitude calibration of north Indian earthquakes". Geophysical Journal International. 159 (1): 165–206. Bibcode:2004GeoJI.159..165A. doi:10.1111/j.1365-246X.2004.02323.x.
  6. ^ "Indus re-enters India after two centuries, feeds Little Rann, Nal Sarovar". India Today. 7 November 2011. Retrieved 2011-11-07.
  7. ^ "Two disasters that defined India's south-west border with Pakistan for ever". Retrieved 22 December 2015.
  8. ^ "Anthropocene Metamorphosis of the Indus Delta and Lower Floodplain" (PDF). Retrieved 22 December 2015.
  9. ^ Chung W.-Y. & Gao H. (1995). "Source parameters of the Anjar earthquake of July 21, 1956, India, and its seismotectonic implications for the Kutch rift basin". Tectonophysics. 242 (3–4): 281–292. Bibcode:1995Tectp.242..281C. doi:10.1016/0040-1951(94)00203-L.
  10. ^ To, A.; Bürgmann R. & Ollitz F. (2004). "Postseismic deformation and stress changes following the 1819 Rann of Kachchh, India earthquake: Was the 2001 Bhuj earthquake a triggered event?". Geophysical Research Letters. 31 (13): L13609. Bibcode:2004GeoRL..3113609T. doi:10.1029/2004GL020220.