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(Top) 1 Tectonic setting 2 Impact 3 Earthquake 3.1 Intensity 4 See also 5 References

1803 Garhwal earthquake

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1803 Garhwal earthquake

Local date	1 September 1803
Local time	01:30^[1]
Magnitude	M_w 7.8 ± 0.2
Epicenter	30°39′22″N 78°47′02″E / 30.656°N 78.784°E / 30.656; 78.784
Fault	Main Himalayan Thrust
Type	Thrust (Blind)
Areas affected	India & Pakistan
Max. intensity	MMI IX (Violent) MSK-64 X (Devastating)
Casualties	200–300 dead

The 1803 Garhwal earthquake occurred in the early morning of September 1 at 01:30 local time. The estimated 7.8-magnitude-earthquake had an epicenter in the Garhwal Himalaya near Uttarkashi, British India. Major damage occurred in the Himalaya and Indo-Gangetic Plain, with the loss of between 200 and 300 lives.^[2] It is among the largest Himalaya earthquakes of the 19th-century, caused by thrust faulting.

Tectonic setting[edit]

The Himalaya is located at the convergent boundary where active convergence leads to continental collision. The India and Eurasian plates began colliding approximately 50 million years ago when the Tethys Ocean closed. The Main Himalayan Thrust (MHT), a decollement structure, defines the boundary between the Indian Plate and Eurasian Plate. The convergent zone also contains three other major faults; the Main Boundary Thrust, Main Central Thrust and South Tibetan Detachment. At the surface, the Main Himalayan Thrust propagates along the Main Frontal Thrust (MFT). These faults runs for approximately 2,300 km in an east–west direction, parallel to the southern foothills of the Lower Himalayan Range from Assam, through Nepal, and into Pakistan. This major thrust fault dips to the north, beneath the Himalaya at a shallow angle. It is the source of most of Himalayan earthquakes.^[3]^[1]

Earthquakes on the convergent boundary are megathrust events that repeat every few centuries. Large Himalayan earthquakes including those in 1505, 1934 and 1950 with magnitudes of 8.0+ were the result of rupturing the Main Himalayan Thrust. These events generated surface ruptures by breaching the surface via the MFT.

Impact[edit]

An artwork of the Qutub Minar in 1805.

AtSrinagar in the meizoseismal area, an estimated 500–1,000 homes were destroyed, and a landslide occurred. Ground fissures and liquefaction events took place in Mathura, near Aligarh and Agra.^[4] An estimated 200–300 people died due to collapsing roofs. Partial damage occurred in the towns Devprayag, Joshimath, Badrinath and Almora. A landslide buried the small village and fort on the eastern bank of the Yamuna RiverinUttar Pradesh.^[4]

The shaking was strongly felt in Mathura and lasted several minutes. It destroyed many pucca homes in the city. Many residents were driven out of their homes, and into the streets or agricultural fields. A pregnant woman died after being struck by falling tiles.^[5] Large fissures occurred in fields, spilling vast quantities of water. One of the fissures partially swallowed the dome of a mosque. The fissures continued to eject water for several weeks, benefitting the residents who were able to obtain water.^[5]

The Hindu Badrinath Temple suffered severe damage from the quake.^[6] Several temples, including the Kashi Vishwanath TempleinUttarkashi, and Tungnath, were totally destroyed.^[7]

The earthquake occurred at the beginning of the Siege of Aligarh during Second Anglo-Maratha War. Aligarh Fort was captured by the British East India Company from the Marathi people and French. The siege came to an end because the severely damage fort walls were breached, easing capture for the British.^[8]^[9]

AtNew Delhi, a cupola in the Qutb Minar collapsed and the main column was structurally weakened.^[10] Reports documented that the spire of the Khanqah-e-MoulainKashmir Valley's Srinagar also collapsed, although it may have been a conflation with a previous earthquake. Fissuring was also observed in the city. Seiches in a water tank at the Acharya Jagadish Chandra Bose Indian Botanic GardeninCalcutta caused by the quake was strong enough to throw fishes out of their aquarium.^[11]

Earthquake[edit]

The earthquake is believed to have ruptured the MHT but did not propagate to the surface. It shared similar characteristics with the 1905 Kangra and the two 2015 Nepal earthquakes; all three events failed to rupture the MHT, hence did not produce any surface rupture. This blind thrust earthquake is the largest in the Indian Himalaya during the 19th-century. Another similar-sized event occurred in Nepal in August 1833. This earthquake was located immediately east of the great 1505 earthquake rupture zone.^[12] Two smaller earthquakes; the 1991 Uttarkashi and 1999 Chamoli earthquakes, also occurred in the epicenter region of the 1803 event.

Descriptions of severe damage and ground effects from the event suggest the earthquake rupture initiated beneath the Himalaya range, and propagated south; up-dip along the MHT in a northwest–southeast direction.^[1] The rupture ceased just short of the MFT.^[12] Accumulated stress to the east caused by the 1505 event was released during the 1803 quake. An estimated maximum coseismic slip of 4.5 meters or less occurred. Since then, roughly 3 meters of slip have accumulated. The two earthquakes in 1991 and 1999 failed to release the seismic strain accumulated since the 1803 event.^[1]

The moment magnitude was previously assigned 8.0 in past academic journals^{[example needed]} based on damage descriptions and felt reports from the historical documentation, but more recent reassessments indicate a much smaller magnitude of 7.8.^[12] The earthquake magnitude has even been downgraded to 7.3 in some journals.^[13]

Intensity[edit]

A macroseismic intensity survey from 1979 assigned the holy city Badrinath with VII (Very strong)–IX (Violent)-level shaking on the Modified Mercalli intensity scale. A 2005 journal by geologist C. P. Rajendran and seismologist Kusala Rajendran published in Tectonophysics assigned the maximum Medvedev–Sponheuer–Karnik scale intensity at IX–X in Srinagar and Devprayag.^[13]

References[edit]

^ ^a ^b ^c ^d Bilham, Roger (2019). "Himalayan earthquakes: a review of historical seismicity and early 21st century slip potential". Geological Society, London, Special Publications. 483 (1): 423–482. Bibcode:2019GSLSP.483..423B. doi:10.1144/SP483.16. Retrieved 23 April 2021.

^ "Significant Earthquake Information". ngdc.noaa.gov. NOAA National Centers for Environmental Information. Retrieved 16 November 2021.

^ Metcalfe, John (14 June 2016). "Study: Nepal Could Be Due for Another Major Earthquake". Bloomberg. Retrieved 12 Dec 2020.

^ ^a ^b Mithila Verma; R. J. Singh; B. K. Bansal (19 June 2014). "Soft sediments and damage pattern: a few case studies from large Indian earthquakes vis-a-vis seismic risk evaluation". Natural Hazards. 74 (3): 1829–1851. Bibcode:2014NatHa..74.1829V. doi:10.1007/s11069-014-1283-4. S2CID 129230290.

^ ^a ^b Sujit Dasgupta; Basab Mukhopadhyay (2014). "1803 Earthquake in Garhwal Himalaya - Archival Materials With Commentary". Indian Journal of History of Science. 49 (1). Scribd: 21–33.

^ Vikram Sharma (23 February 2017). "Uttarakhand has a history of earthquakes but nobody cares!". The New Indian Express. Retrieved 16 November 2021.

^ C. P. Rajendran; Kusala Rajendran; Jaishri Sanwal; Mike Sandiford (2013). "Archeological and Historical Database on the Medieval Earthquakes of the Central Himalaya: Ambiguities and Inferences" (PDF). Seismological Research Letters. 84 (6): 1098. Bibcode:2013SeiRL..84.1098R. doi:10.1785/0220130077.

^ Roger Bilham (2004). "Historical Studies of Earthquakes in India". Annals of Geophysics. CiteSeerX 10.1.1.554.5602.

^ "1803 Garhwal Earthquake: Implications for western UP and NCR". Risk Prevention Mitigation and Management Forum. 30 August 2021. Retrieved 16 November 2021.

^ J. A. Page; Y. D. Sharma (2002). World Heritage Series: Qutb Minar & Adjoining Monuments (PDF). New Delhi: Archaeological Survey of India. p. 54. ISBN 81-87780-07-X.

^ Sujit Dasgupta. "The 1803 North India earthquake". Indiaquake. Retrieved 17 November 2021.

^ ^a ^b ^c C. P. Rajendran; Biju John; K. Anandasabari; Jaishri Sanwal; Kusala Rajendran; Pankaj Kumar; Sundeep Chopra (2018). "On the paleoseismic evidence of the 1803 earthquake rupture (or lack of it) along the frontal thrust of the Kumaun Himalaya". Tectonophysics. 772. Elsevier: 227–234. Bibcode:2018Tectp.722..227R. doi:10.1016/j.tecto.2017.11.012.

^ ^a ^b C. P. Rajendran; Kusala Rajendran (2005). "The status of central seismic gap: A perspective based on the spatial and temporal aspects of the large Himalayan earthquakes". Tectonophysics. 395 (1): 19–39. Bibcode:2005Tectp.395...19R. doi:10.1016/j.tecto.2004.09.009.

Himalayan earthquakes

Notable Himalayan quakes

Plate tectonics

v t e Earthquakes in India
Historical	1505 Lo Mustang 1555 Kashmir 1803 Garhwal 1819 Rann of Kutch 1833 Kathmandu–Bihar 1869 Cachar 1881 Nicobar Islands 1885 Kashmir 1897 Assam
20th century	1905 Kangra 1930 Dhubri 1934 Nepal–India 1935 Quetta 1941 Andaman Islands 1947 Assam 1950 Assam–Tibet 1956 Anjar 1967 Koynanagar 1975 Kinnaur 1980 Pithoragarh 1984 Cachar 1988 Myanmar–India 1988 Nepal 1991 Uttarkashi 1993 Latur 1997 Jabalpur 1997 Chittagong 1999 Chamoli
21st century	2001 Gujarat 2004 Indian Ocean 2005 Kashmir 2009 Andaman Islands 2011 Sikkim April 2015 Nepal May 2015 Nepal October 2015 Hindu Kush 2016 Imphal 2016 Sagaing 2016 Magway 2017 Tripura 2017 Uttarakhand 2021 Assam 2022 Nepal 2023 Badakhshan 2023 Nepal
Related topics	Earthquake zones of India Geology of the Himalaya