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1973 Luhuo earthquake

Coordinates: 31°23′53″N 100°34′52″E / 31.398°N 100.581°E / 31.398; 100.581
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1973 Luhuo earthquake
1973 Luhuo earthquake is located in Sichuan
1973 Luhuo earthquake
UTC time1973-02-06 10:37:10
ISC event763709
USGS-ANSSComCat
Local dateFebruary 6, 1973
Local time18:37 CST[1]
MagnitudeMs 7.6[2]
Depth11 km (6.8 mi)[3]
Epicenter31°23′53″N 100°34′52″E / 31.398°N 100.581°E / 31.398; 100.581
FaultXianshuihe fault system
TypeStrike-slip
Areas affectedChina
Max. intensityMMI X (Extreme)
LandslidesYes
AftershocksMs  6.3[2]
Casualties2,175–2,204 dead, 2,743 injured

The 1973 Luhuo earthquake struck near the town of Zhaggo in Garzê Tibetan Autonomous Prefecture of Sichuan Province, China on February 6, 1973, with a magnitude of 7.6 Ms. The earthquake had a maximum intensity of X (Extreme) on the Modified Mercalli intensity scale. It resulted in between 2,175 and 2,204 deaths and a further 2,743 injuries.[4][1] Serious and widespread destruction occurred in Luhuo County.

Tectonic setting

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The tectonic overview of the Tibetan Plateau and Sichuan.

Western Sichuan is situated at the edge of the Tibetan Plateau in a vast zone of complex continental deformation caused by the collision of the Indian plate with the Eurasian plate. As thrusting of the Indian plate beneath the Eurasian plate along the Himalayas continues, the continental crust within the Eurasian plate is actively uplifted and thickened, forming the Tibetan Plateau. As there are no active thrust structures within the plateau, compression is accommodated by strike-slip motion along large structures including the Altyn Tagh Fault, Kunlun Fault, Haiyuan Fault and Xianshuihe fault system. Left-lateral strike-slip motion squeezes the crustal blocks of the Tibetan Plateau outwards, forcing it to move eastwards. Meanwhile, the strike-slip motion also results in east–west extension of the plateau, causing normal faults to break within the thickened crust.[5][6]

The Xianshuihe fault system is a 1,400 km (870 mi) long active left-lateral strike-slip fault that accommodates the strike-slip motion in the Tibetan Plateau. The fault is one of the largest active intracontinental geological structure in the world. Since 1893, at least 350 km (220 mi) of the fault length has ruptured in large successive earthquakes with magnitudes 6.5 or larger.[7] From 1700 to the present-day, the fault has ruptured its entire length during large earthquakes.[8]

Earthquake

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A view from above of the Xianshuihe river valley and fault system.

The earthquake measured 7.9 on the Chinese surface-wave magnitude scale but further analysis and recalculation indicate a magnitude of 7.6.[9] A Ms  6.3 aftershock occurred a day later, likely triggered by coulomb stress transfer from the mainshock.[2] Geomorphic evidence of the earthquake was well-preserved because it occurred in mid-winter.[9] This event was the result of pure left-lateral slip on the Luhuo segment of the Xianshuihe fault system. A section of the Xianshuihe fault ruptured for a length of 90 km (56 mi), and produced a maximum slip of 3.8 m (12 ft) on the shallow 0–5 km (0.0–3.1 mi) section of the rupture zone.[10][11] Near Dandu Township, an agricultural field was offset by 7.2 m (24 ft), but studies indicated that it was the accumulation of offsets from previous earthquakes, including the 1816 event.[12] Surface ruptures were well documented by scientists throughout the 90 km length extending from Renda to Kasu. The southeastern 10 km (6.2 mi) segment of the earthquake rupture overlapped that of the 1923 Renda earthquake, another Ms  7.3 earthquake on the Xianshuihe Fault.[12][10]

The Luhuo segment of the Xianshuihe fault system was also the source of a magnitude 7.5 earthquake in 1816. Field research through trenching at the Luhuo segment however, revealed a record of earthquake history on the fault in the past 3,000 years. The first event identified in the exposed strata layers corresponded to the year 769 BC. Five additional events were also identified to have occurred in the years 318–545 AD, 677–833 AD, and 1008–1444 AD. A recurrence interval has been calculated at between 157 and 1,200 years for the earthquakes from 769 BC–1973 AD.[13]

Impact

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The earthquake killed between 2,175 and 2,204 people in Sichuan Province. It also left 43 orphans in the aftermath.[14] It caused extensive destruction along its 90 km (56 mi) of rupture.[9] Nearly homes near or in the path of the rupture were destroyed, amounting to at least 15,700.[15][16] An estimated 2,867 buildings were also heavily damaged. Across two towns in Luhuo County, 4,600 of the 5,000 homes collapsed while another 880 suffered serious damage. A further 90 sustained cracks. China National Highway 318 or the Sichuan-Tibet highway was damaged by rockfalls, landslides and ground cracks at 17 locations. Other roadways, bridges and telecommunication systems were damaged or disrupted as well. Some 40,427 livestock died and 2.01 million kilograms of food were lost.[16] The earthquake triggered between 40 and 50 landslides in the Xianshui River valley.[17] Nearly all recorded landslide features were distributed within a 70 km (43 mi) by 2 km (1.2 mi), or 409 km2 area within the valley.[3] Field surveys observed 137 landslides, all of which lay within the zone of VIII or higher intensity.[3] A division of the People's Liberation Army was sent to the affected area to assist in rescue and recovery efforts. In the division, at least 668 medical crew from 49 groups attended to injured survivors.[18]

See also

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References

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  1. ^ a b Utsu, T. "Search Page". Catalog of Damaging Earthquakes in the World (Through 2008). Retrieved June 3, 2010.
  2. ^ a b c Liu Guiping; Fu Zhengxiang. "1973年炉霍大地震(Ms=7.6)最大余震(Ms=6.3)的库仑破裂应力触发" [The Coulomb rupture stress triggering of the largest aftershock (Ms=6.3) of the 1973 Luhuo earthquake (Ms=7.6)]. Earthquake Research in China (in Chinese). 18: 175–182. Retrieved 23 July 2021.
  3. ^ a b c X. L. Chen; Q. Zhou; H. Ran; R. Dong (2012). "Earthquake-triggered landslides in southwest China". Natural Hazards and Earth System Sciences. 12 (2): 351–363. Bibcode:2012NHESS..12..351C. CiteSeerX 10.1.1.838.9836. doi:10.5194/nhess-12-351-2012.
  4. ^ National Geophysical Data Center / World Data Service (NGDC/WDS): NCEI/WDS Global Significant Earthquake Database. NOAA National Centers for Environmental Information. (1972). "Significant Earthquake CHINA: SICHUAN PROVINCE". NOAA National Centers for Environmental Information. doi:10.7289/V5TD9V7K. Retrieved 5 January 2023.
  5. ^ J. R. Elliott, R. J. Walters, P. C. England, J. A. Jackson, Z. Li, B. Parsons (2010). "Extension on the Tibetan plateau: recent normal faulting measured by InSAR and body wave seismology". Geophysical Journal International. 183 (2): 503–535. Bibcode:2010GeoJI.183..503E. doi:10.1111/j.1365-246X.2010.04754.x. S2CID 134590278. Retrieved 19 July 2021.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  6. ^ Weijun Gan; Peizhen Zhang; Zheng-Kang Shen; Zhijun Niu; Min Wang; Yongge Wan; Demin Zhou; Jia Cheng (2007). "Present-day crustal motion within the Tibetan Plateau inferred from GPS measurements". Journal of Geophysical Research: Solid Earth. 112 (B8). American Geophysical Union. Bibcode:2007JGRB..112.8416G. doi:10.1029/2005JB004120.
  7. ^ Eleftheria Papadimitriou; Xueze Wen; Vassilios Karakostas; Xueshen Jin (2004). "Earthquake Triggering along the Xianshuihe Fault Zone of Western Sichuan, China". Pure and Applied Geophysics. 161 (8): 1683–1707. Bibcode:2004PApGe.161.1683P. doi:10.1007/s00024-003-2471-4. S2CID 129325246.
  8. ^ Mingkun Bai; Marie-Luce Chevalier; Jiawei Pan; Anne Replumaz; Philippe Hervé Leloup; Marianne Métois; Haibing Li (2018). "Southeastward increase of the late Quaternary slip-rate of the Xianshuihe fault, eastern Tibet. Geodynamic and seismic hazard implications". Earth and Planetary Science Letters. 485: 19–31. Bibcode:2018E&PSL.485...19B. doi:10.1016/j.epsl.2017.12.045.
  9. ^ a b c Clarence R. Allen; Luo Zhuoli; Qian Hong; Wen Xueze; Zhou Huawei; Huang Weishi (1989). "Segmentation and Recent rupture history of the Xianshuihe Fault, Southwestern China". U.S. Geological Survey Open-file Report. Fault segmentation and controls of rupture initiation and termination. (89–315): 10–30. Retrieved 2 July 2021.
  10. ^ a b Yang Jianbing; Zhao Bin; Du Ruilin; Yu Jiansheng; Wang Dongzhen (2020). "1923年仁达地震与1973年炉霍地震的破裂模型及触发关系研究" [Research on the Rupture Model and Trigger Relationship of Renda Earthquake in 1923 and Luhuo Earthquake in 1973]. Journal of Geodesy and Geodynamics (in Chinese). 40 (8): 783–789. doi:10.14075/j.jgg.2020.08.003. Retrieved 2 July 2021.
  11. ^ Hui-lan Zhou, Clarence R. Allen, and Hiroo Kanamori (1983). "Rupture complexity of the 1970 Tonghai and 1973 Luhuo earthquakes, China, from P-wave inversion, and relationship to surface faulting" (PDF). Bulletin of the Seismological Society of America. 73 (6A): 1585. Bibcode:1983BuSSA..73.1585Z. doi:10.1785/BSSA07306A1585.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  12. ^ a b Clarance R. Allen; Qian Hong; Xue-Ze Wen; Luo Zhuoli (1991). "Field study of a highly active fault zone: The Xianshuihe fault of southwestern China". Geological Society of America Bulletin. 103 (9): 1178–1199. Bibcode:1991GSAB..103.1178A. doi:10.1130/0016-7606(1991)103<1178:FSOAHA>2.3.CO;2.
  13. ^ Mingjian Liang; Lichun Chen; Yongkang Ran; Yanbao Li; Shuaipo Gao; Mingming Han; Lili Lu (2020). "Abnormal Accelerating Stress Release Behavior on the Luhuo Segment of the Xianshuihe Fault, Southeastern Margin of the Tibetan Plateau, During the Past 3000 Years". Frontiers in Earth Science. 8 (274): 274. Bibcode:2020FrEaS...8..274L. doi:10.3389/feart.2020.00274.
  14. ^ Yang Yanyu, ed. (6 February 2013). "四川炉霍40年从地震废墟上崛起". China News. Retrieved 2 July 2021.
  15. ^ Li Zhongdong (25 February 2019). "鲜水河断裂带,危险与美景并存之地". 163.com. Archived from the original on 9 July 2021. Retrieved 2 July 2021.
  16. ^ a b "1973年炉霍地震". Archived from the original on 2020-02-22. Retrieved 2013-08-13.
  17. ^ "大灾无情!盘点历史上四川发生的10余次7级以上地震". chengdumingxiao.com. 10 August 2017. Retrieved 2 July 2021.
  18. ^ "四川炉霍40年从地震废墟上崛起" (in Chinese). China News Network. 2013. Retrieved 23 July 2021.
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