1902 Turkestan earthquake

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1902 Kashgar earthquake
1902 Turkestan earthquake is located in China
1902 Turkestan earthquake
UTC time1902-08-22 03:00:00
ISC event16957769
USGS-ANSSComCat
Local dateAugust 22, 1902 (1902-08-22)
Magnitude7.7 Mw[1]
8.3 Ms
Depth18.0 km (11.2 mi)[1]
Epicenter39°52′N 76°25′E / 39.87°N 76.42°E / 39.87; 76.42Coordinates: 39°52′N 76°25′E / 39.87°N 76.42°E / 39.87; 76.42[1]
Areas affectedChina & Kyrgyzstan
Max. intensityXI (Extreme)
Casualties5,650-20,000 dead[2]

The 1902 Turkestan earthquake (Chinese: 土耳其斯坦地震; pinyin: Tǔ'ěrqí sītǎn dìzhèn; Kyrgyz: Түркстандагы жер титирөө, romanizedTürkstandagı jer titiröö) , also known as the Kashgar earthquake (Chinese: 喀什地震; pinyin: Kāshén dìzhèn; Kyrgyz: Кашкардагы жер титирөө, romanized: Kaşkardagı jer titiröö), Atushi earthquake, and Artux earthquake, was a devastating seismic event that struck the western part of Xinjiang, an autonomous territory in China, near the border with Kyrgyzstan. It occurred on August 22, 1902, at about 8:00 or 9:00 am local time. At least 5,650 to 20,000 people were killed, with many more injured.[3][4][5] The earthquake registered 7.7 Mw  on the moment magnitude scale. It is the most powerful earthquake in that region, and in Kyrgyzstan, along with the 1911 Kebin earthquake.[6][7][8]

Tectonic setting[]

The geological forces at play around Kyrgyzstan and Xinjiang are directly related to the ongoing collision of the Indian Plate with the Eurasian Plate.[9] The topography of this region is influenced by broad crustal deformation as a result of convergence along the Main Himalayan Thrust. Before the Indian subcontinent collided with Eurasia, there were island arcs and microcontinents between the two landmasses that were also converging. These terranes were later accreted to Eurasia as northward-moving India closed collided with Eurasia, and are now in present-day Central Asia. Ancient suture zones mark the boundary between these accreted terranes. This deformation and accretion led to the formation of the Tien Shan mountains, which are moving 7±2 mm/yr towards the south along faults running along their base.[9] The region is dominated by large, north and south-dipping thrust faults along the southern edge of the Tien Shan mountains, and the northern boundary of the Tarim basin, one of them being the Aheqi Fault Zone.[9]

Earthquake[]

Major fault structures in the vicinity of the Tien Shan range. The earthquake ruptured a thrust fault at the base of the range, or north of the Tarim Basin.

While scientific knowledge of the event is rather sparse due to the period in which it happened, research have given new insights into the earthquake of August 22, 1902. In a 2017 research, the earthquake was determined to have occurred at a depth of 18 km, while the epicenter coordinates at 39.87° N 76.42° E, a relocation from most global event catalogs which place the epicenter coordinates at 40.0° N 77.00° E. The earthquake magnitude was also recalculated to be 7.7, while older figures presented magnitude 8.3 (written as 8.25) or 8.6.[1][10]

Thrust faulting was the culprit of this event, involving a rupture on the Ttiotegongbaizi-Aerpaleike Fault located at the southern flanks of the Tien Shan range.[1][11] This fault is 200 km long, and expresses itself at the surface like a gentle wave-shape. It dips north at varying angles of 25° to 60°. Newer research and analysis show that the quake was consistent with a rupture involving the Tuotegongbaizi-Aerpaleike Fault, near the western segment of the much larger Kalpin fold and thrust belt.[1][12]

It was this fault that was responsible for the , an Mwc  6.3 event that killed some 26 people in March 1996.[13][14] Field observations by researchers found no trace of surface ruptures indicating the event was a blind thrust earthquake.

Damage and casualties[]

Kashgar photographed in 1915.

The earthquake struck at 8:00 or 9:00 am on August 22, lasting for one and a half minutes, and reported to be extremely violent. Severe aftershocks were felt every day up till August 30. The mainshock was recorded on seismographs all over Europe.[15] It had a maximum intensity of X to XI (Extreme) on the Mercalli intensity scale, X on the Rossi-Forel scale and X on the MSK-64 scale.[1][16]

Around the meizoseismal area of the earthquake, an area that includes Kashgar and Artux, shaking reached X to XI (Extreme) on the and Mercalli intensity scale. The shaking was so forceful that the tip of trees touched the ground and some were even uprooted or snapped. All wood-constructed homes collapsed and many tents became deformed. Ground slumping near a riverbank blocked roads and dammed streams. Large ground fissures ejected water, transforming the ground into mud. The largest fissure measured one kilometer in length, several meters wide and three meters deep. Five hundred (500) people died in the area. Many domesticated animals were also killed.[17]

In Kashgar, the mainshock collapsed sun-dried brick walls and collapsing homes. Masonry buildings however did not sustain serious damage.[15] Numerous fissures opened in the northern entrance of the city, where the city walls also toppled. Part of the Afaq Khoja Mausoleum, a tomb in the heart of Kashgar, collapsed and fractured. At least 50 inhabitants lost their lives or were injured.[17] The Artush district north of Kashgar suffered more devastating consequences. The earthquake collapsed almost every house in the area. Some 667 people were killed, and thousands more were injured in the city.[15][18]

The village of Astyn saw 400 fatalities, and in Jangi, 20 fatalities.[19]

In Yarkand, there was less serious damage to the city, but two children lost their lives due to collapsing walls. There was also damage reported in Narin and Atbashi although no residents were killed recorded.[15]

See also[]

References[]

  1. ^ Jump up to: a b c d e f g Kulikova, G., Krüger, F. (2017). "Historical seismogram reproductions for the source parameters determination of the 1902, Atushi (Kashgar) earthquake". Journal of Seismology. 21 (6): 1577–1597. Bibcode:2017JSeis..21.1577K. doi:10.1007/s10950-017-9683-z. S2CID 135031442.CS1 maint: multiple names: authors list (link)
  2. ^ Utsu, T. "Search Page". Catalog of Damaging Earthquakes in the World (Through 2008). Retrieved April 10, 2021.
  3. ^ "EARTHQUAKE IN TURKESTAN KILLS OVER TWO THOUSAND". Mercury-register. XLI (132). 23 Dec 1902.
  4. ^ "EARTHQUAKE KILLS 4,000; Appalling Catastrophe at Andijan in Russian Turkestan. Area of Disturbance Comprises Two Hundred Square Versts -- 800 Corpses Already Recovered -- Suffering Among the Homeless". The New York Times. 24 Dec 1902.
  5. ^ "Turkestan earthquake". The Sunday Times. 28 Dec 1902. Retrieved 4 Feb 2021.
  6. ^ B. Gutenberg (1956). "Great earthquakes 1896–1903". Eos, Transactions American Geophysical Union. 37 (5): 608. Bibcode:1956TrAGU..37..608G. doi:10.1029/TR037i005p00608.
  7. ^ "M 7.7 - Kyrgyzstan-Xinjiang border region". earthquake.usgs.gov. Retrieved 2021-02-04.
  8. ^ "M 7.7 - eastern Kazakhstan". earthquake.usgs.gov. Retrieved 2021-02-04.
  9. ^ Jump up to: a b c Bihong Fu, Yoshiki Ninomiya, Jianming Guo (2010). "Slip partitioning in the northeast Pamir–Tian Shan convergence zone" (PDF). Tectonophysics. 483 (3–4): 344–364. Bibcode:2010Tectp.483..344F. doi:10.1016/j.tecto.2009.11.003.CS1 maint: multiple names: authors list (link)
  10. ^ J. P. Avouac P. Tapponnier M. Bai H. You G. Wang (1993). "Active Thrusting and Folding Along the Northern Tien Shan and Late Cenozoic Rotation of the Tarim relative to Dzungaria and Kazakhstan" (PDF). Journal of Geophysical Research: Solid Earth. 98 (B4): 6755–6804. Bibcode:1993JGR....98.6755A. doi:10.1029/92JB01963.
  11. ^ Rui-bin Zhao, Jun Li & Jun Shen (2000). "The preliminary study on active faults and paleoearthquakes in the north fringe of Kashi depression". Acta Seismologica Sinica. 13 (3): 351–355. Bibcode:2000AcSSn..13..351Z. doi:10.1007/s11589-000-0045-4. S2CID 129084815.
  12. ^ Li, A., Ran, Y., Gomez, F. (2020). "Segmentation of the Kepingtage thrust fault based on paleoearthquake ruptures, southwestern Tianshan, China". Natural Hazards. 103: 1385–1406. doi:10.1007/s11069-020-04040-6. S2CID 218573164.CS1 maint: multiple names: authors list (link)
  13. ^ Reuters Staff (12 May 2008). "TIMELINE: China's major earthquakes". Reuters. Retrieved 4 Feb 2021.
  14. ^ "M 6.3 - southern Xinjiang, China". earthquake.usgs.gov. Retrieved 2021-02-04.
  15. ^ Jump up to: a b c d "The Turkestan Earthquake of August 22". Scottish Geographical Notes (1). 1902. doi:10.1080/00369220308733425.
  16. ^ Lauterbach, S., Mingram, J., Schettler, G., & Orunbaev, S. (2019). "Two twentieth-century MLH = 7.5 earthquakes recorded in annually laminated lake sediments from Sary Chelek, western Tian Shan, Kyrgyzstan". Quaternary Research. 92 (2): 288–303. doi:10.1017/qua.2019.21. S2CID 181463148. Retrieved 8 May 2021.CS1 maint: multiple names: authors list (link)
  17. ^ Jump up to: a b "CHINA: XINJIANG, TURKESTAN". NGDC NCEI. NCEI. Retrieved 17 March 2021.
  18. ^ Wines, Michael (May 27, 2009). "To Protect an Ancient City, China Moves to Raze It". The New York Times. Retrieved 10 April 2021.
  19. ^ "Terrible earthquake in Turkestan". MANAWATU STANDARD. XL (7454). 20 Nov 1902. p. 2. Retrieved 4 Feb 2021.

External links[]

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