Haiyuan Fault

The Haiyuan Fault is a major active intracontinental strike-slip (sinistral) fault in Central Asia.^[1]

Haiyuan Fault
Location	Tibet
Country	China
Characteristics
Length	1,000 km (620 mi)
Tectonics
Plate	Eurasian Plate
Status	Active
Earthquakes	~174-374 AD, 1092 AD, 1920, 1927, 2022
Type	sinistral strike-slip fault

The major fault structures in the Tibetan Plateau, the Haiyuan Fault is located within the Eurasian Plate.

Tectonic setting

The Haiyuan Fault forms part of the northeastern boundary of the Tibetan Plateau, which is an area of continental crust that has been thickened by the ongoing continental collision between the Indian Plate and the Eurasian Plate. The Haiyuan Fault extends for approximately 1,000 km (620 mi) from the central Qilian Shan in the west, to the Liupan Shan, in the east. It is one of the group of structures that accommodates the overall eastward spreading of the plateau, that also includes the Altyn Tagh Fault, Kunlun Fault and the Xianshuihe fault system.^[2][1]

Geology

It is characterized by left-lateral strike-slip motion along its length, the motion transits to thrust at the eastern end, accommodated by the Liupanshan Fault. The average slip rate along the Haiyuan Fault is 3.2–9 mm/yr.^[3][1]

Tianzhu seismic gap

The Tianzhu seismic gap is a 260 km (160 mi) long, unruptured segment on the western end of the fault. It has not seen any major earthquakes for the past 1,000 years and was identified as a seismic gap. It poses a high risk for the capacity of large earthquakes.^[4] An earthquake recurrence period of roughly 1,000 years has been suggested, with the last earthquakes on that section dated at 1092 AD and 174 or 374 AD. Locking depth of the fault range from 7.1–21.8 km (4.4–13.5 mi).^[1][3]

Creeping Section

At the western end of the 1920 earthquake surface rupture, and between the Tianzhu seismic gap (from 37.11° N, 103.68° E to 37.00° N, 104.15° E) lies a 30–40 km (19–25 mi) section of the fault that displays a phenomenon known as an aseismic creep at shallow depths.^[5]

Seismicity

The fault was the source of two very large and destructive earthquakes in 1920 and 1927. Two events in 143 A.D. or 374 A.D. and in 1092 may have been large earthquakes with estimated magnitudes of 8.0 or higher.^[6]

1920

Main article: 1920 Haiyuan earthquake

On the evening of December 16, 1920, a M7.8–8.5 earthquake struck Haiyuan County, killing over 270,000 people. Shaking intensity reached a maximum of XII (Extreme), the uppermost limit on the Modified Mercalli intensity scale. The fault ruptured for a length of nearly 237 km (147 mi) in this event.^[7] Surface ruptures from the earthquake have been well documented and a maximum surface displacement of 10–11 m (33–36 ft) was recorded.^[6]

1927

Main article: 1927 Gulang earthquake

A magnitude 7.7 quake struck Gansu Province on the morning of May 22, 1927, the earthquake occurred on a different segment from the one involved in the 1920 quake. This earthquake caused the deaths of more than 40,000 people, and 200,000 livestock.^[2] It is thought to have been produced along a south-dipping thrust fault located north of the Haiyuan Fault strand. This fault has been interpreted to be a branch of the Haiyuan Fault at depth.^[6]

1990

On October 20, 1990, a M_w  5.8 earthquake ruptured a small section of the fault with a maximum China seismic intensity of VIII. Serious damage was reported along a 27 km (17 mi) section of the fault. The earthquake produced surface fissures and cracks. The ancient walls of Songshan collapsed. No formal geological investigation was conducted although it is believed to have produced a surface rupture for several kilometers.^[6] One fatality was reported.^[8]

1995

The 1995 Yongden earthquake on July 21, a M_w  5.6 earthquake struck near Yongden County, northeast of Lanzhou. It left 14 people killed, 533 injured and 8,860 homeless. At least 11,704 homes were destroyed and a further 5,083 were extensively damaged. Serious damage occurred to road and agricultural infrastructures. Livestock and farmland were destroyed by landslides.^[9] A maximum intensity of VII was evaluated.^[10] The earthquake was the result of movement along a previously unmapped south–southwest dipping thrust fault.^[11]

2022

Main article: 2022 Qinghai earthquake

An M_w  6.6 or M_s  6.9 earthquake struck Menyuan County in January 2022, causing little damage and few minor injuries.^[12] The earthquake was felt with a maximum intensity of IX on the China seismic intensity scale (IX on the Modified Mercalli intensity scale^[13]) over a 157 km³ area.^[14]

It generated a 22 km (14 mi) surface rupture along the Lenglongling segment of the Haiyuan Fault. On-site investigations found up to 2.1 m (6 ft 11 in) of left-lateral strike-slip offsets. The surface rupture also crossed the tunnel of a high-speed railway linking Lanzhou to Ürümqi, causing severe damage to a bridge and the tracks. Modelling of the earthquake suggest it had a maximum coseisic slip of around 3.5 m (11 ft) at a depth of 0–10 km (0.0–6.2 mi) along the rupture.^[13]

References

1. Jolivet, R.; Lasserre, C.; Doin, M.–P.; Guillaso, S.; Peltzer, G.; Dailu, R.; Sun, J.; Shen, Z.–K.; Xu, X. (2012). "Shallow creep on the Haiyuan Fault (Gansu, China) revealed by SAR Interferometry". Journal of Geophysical Research: Solid Earth. 117 (B6): n/a. Bibcode:2012JGRB..117.6401J. doi:10.1029/2011JB008732.
2. Gaudemer, Y.; Tapponnier, P.; Meyer, B.; Peltzer, G.; Shunmin, G.; Zhitai, C.; Huagung, D.; Cifuentes, I. (1995). "Partitioning of crustal slip between linked, active faults in the eastern Qilian Shan, and evidence for a major seismic gap, the 'Tianzhu gap', on the western Haiyuan Fault, Gansu (China)". Geophysical Journal International. 120 (3): 599–645. Bibcode:1995GeoJI.120..599G. doi:10.1111/j.1365-246X.1995.tb01842.x.
3. Li, Y.; Qu, C.; Shan, X.; Song, X.; Zhang, G.; Gan, W.; Wen, S.; Wang, Z. (2015). "Deformation of the Haiyuan-Liupanshan fault zone inferred from the denser GPS observations". Earthquake Science. 28 (5–6): 319–331. Bibcode:2015EaSci..28..319L. doi:10.1007/s11589-015-0134-z.
4. Cavalié, O.; Lasserre, C.; Doin, M.–P.; Peltzer, G.; Sun, J.; Shen, Z.–K. (2008). "Measurement of interseismic strain across the Haiyuan fault (Gansu, China), by InSAR". Earth and Planetary Science Letters. 275 (3–4): 246–257. Bibcode:2008E&PSL.275..246C. CiteSeerX 10.1.1.457.4262. doi:10.1016/j.epsl.2008.07.057.
5. Jolivet, R.; Candela, T.; Lasserre, C.; Renard, F.; Klinger, Y.; Doin, M.–P. (2015). "The Burst-Like Behavior of Aseismic Slip on a Rough Fault: The Creeping Section of the Haiyuan Fault, China" (PDF). Bulletin of the Seismological Society of America. 105 (1): 480–488. Bibcode:2015BuSSA.105..480J. doi:10.1785/0120140237. S2CID 44368472.
6. Liu-Zeng, Jing; Klinger, Yann; Xu, Xiwei; Lasserre, Ce´cile; Chen, Guihua; Chen, Wenbing; Tapponnier, Paul; Zhang, Biao (2007). "Millennial Recurrence of Large Earthquakes on the Haiyuan Fault near Songshan, Gansu Province, China" (PDF). Bulletin of the Seismological Society of America. 97 (1B): 14–34. Bibcode:2007BuSSA..97...14L. doi:10.1785/0120050118. S2CID 53691786.
7. Wang, Y.; Ran, Y. (2001). "The 1920 Haiyuan Earthquake Rupture and the Paleoearthquakes Feature of the Haiyuan Fault in China". AGU Fall Meeting Abstracts. AGU, Fall Meeting 2001, abstract id. S52D-0664. 2001. American Geophysical Union: S52D–0664. Bibcode:2001AGUFM.S52D0664W – via The SAO/NASA Astrophysics Data System.
8. "M 5.7 - Gansu, China". earthquake.usgs.gov. United States Geological Survey. Retrieved 12 June 2022.
9. "甘肃永登地震" [Gansu Yongdeng Earthquake]. China Science Network. Chinese Academy of Sciences. Retrieved 21 July 2022.
10. Lizhu, Xiao; Weiping, Zheng; Liming, Yang. "1995 年 7 月 22 日甘肃省永登 5.8 级地震" [The 5.8 magnitude earthquake in Yongdeng, Gansu province on July 22, 1995] (PDF). 中国震例 (1995～1996) (in Chinese): 146–164.
11. Lasserre, C.; Bukchin, B.; Bernard, P.; Tapponnier, P.; Gaudemer, Y.; Mostinsky, A.; Dailu, Rong (2001). "Source parameters and tectonic origin of the 1996 June 1 Tianzhu (Mw=5.2) and 1995 July 21 Yongden (Mw=5.6) earthquakes near the Haiyuan fault (Gansu, China)". Geophysical Journal International. 144 (1): 206–220. doi:10.1046/j.1365-246x.2001.00313.x.
12. "M 6.6 - 110 km SW of Jinchang, China". earthquake.usgs.gov. U.S. Geological Survey. Retrieved 8 January 2022.
13. Hongfeng Yang; Dun Wang; Rumeng Guo; Mengyu Xie; Yang Zang; Yue Wang; Qiang Yao; Chuang Cheng; Yanru An; Yingying Zhang (2022). "Rapid report of the 8 January 2022 MS 6.9 Menyuan earthquake, Qinghai, China". Earthquake Research Advances. 2 (100113). Elsevier: 100113. Bibcode:2022EaRA....200113Y. doi:10.1016/j.eqrea.2022.100113. S2CID 246434547.
14. "青海门源6.9级地震烈度图发布，最高烈度达9度". Xinhuanet (in Chinese). 12 January 2022. Retrieved 13 March 2022.