1654 Tianshui earthquake explained

1654 Tianshui earthquake
Local-Time:21:00 to 23:00
Pre-1900:yes
Magnitude: 7.0
Depth:20km (10miles)
Location:34.3°N 105.5°W
Countries Affected:China
Casualties:30,000 dead

The 1654 Tianshui earthquake occurred on July 21 in Tianshui, Gansu Province, Ming dynasty sometime between 21:00 and 23:00 local time. The event had an estimated moment magnitude of 7.0 and was assigned a maximum intensity of XI on the China seismic intensity scale.[1] Resulting in extreme damage and affecting at least four provinces, the quake killed approximately 30,000 people.

Tectonic setting

The active plate tectonics of Gansu Province located on the Tibetan Plateau is dominated by the north–south continental collision of the Indian Plate and Eurasian Plate. As the Indian Plate collides along a convergent plate boundary known as the Main Himalayan Thrust, it being of continental crust does not subduct, rather, it plows into the Eurasian Plate. This process severely deforms the Eurasian Plate, uplifting the crust, forming the Tibetan Plateau. The force of the Indian Plate converging pushes the Tibetan Plateau east, towards the Sichuan Basin, forming another zone of collision. This collision and resulting crustal deformation of the Eurasian Plate is accommodated by the Xianshuihe fault system, Haiyuan Fault, Kunlun Fault, Altyn Tagh fault, and Longmenshan Fault. The presence of active faults in Sichuan makes the region vulnerable to damaging earthquakes. The very deadly 2008 Sichuan earthquake occurred due to a thrust fault rupture on the Longmenshan Fault.[2] The 1920 Haiyuan and 1927 Gulang earthquakes occurred due to ruptures along the Haiyuan Fault.

Earthquake

The Lixian-Luojiapu Fault Zone located at the triple junction between the North China Craton, Tibetan Plateau, and South China Craton was identified as the source of the earthquake. The fault is characterized by left-lateral strike-slip and normal sense of slip, and strikes in an east northeast direction. It formed in the late Quaternary as a system of three fault strands with a length of 150 km. The fault has an average horizontal and vertical displacement rate of 0.95 mm/yr and 0.35 mm/yr respectively. Surface ruptures on two segments of the fault zone; the Tanchang-Lixian and the eastern Lixian-Luojiapu subsegments, were positively identified and corresponded to the event. The earthquake rupture also involved one on the West Qinling Fault, located north of the Lixian-Luojiapu Fault Zone. The West Qinling Fault is another major left-lateral fault that strikes west northwest and runs for a much longer length.[3]

The rupture on the Lixian-Luojiapu Fault Zone is also consistent with the reported isoseismal intensities obtained from the historical records. It is estimated that the total rupture length on the structure was 106 km. Paleoseismology studies on the West Qinling Fault found surface ruptures which were dated and corresponded to the event. A recent (2022) study of earthquakes in the region reevaluated the magnitude to 7.0, a revision from older studies that estimates it to be 8.0 .[4]

Impact

There were 30,000 fatalities, many injured and missing.[5] At Tianshui, nearly all the city walls and government official structures were demolished. Over 3,600 homes collapsed, along with many loess cave dwellings and stockades. Significant religious places such as temples were destroyed. Many landslides occurred on the nearby mountains. Two landslides reportedly buried a town. It is estimated that more than 7,400 people were killed in the city. In Gangu County, at least 3,000 people died due to collapsing homes, landslides or ground fissures. At Wushan, many villages and fortifications were destroyed.[6] In nearby Fufeng County, Shaanxi, residents and animals died in the collapse of walls, temples and the Jinfu Palace. Damage to city walls were reported in Hanzhong.

See also

Notes and References

  1. Web site: 21 July 1654 S of Tongwei (Gansu) . emidius.eu . Global Historical Earthquake Archive . 24 October 2021.
  2. Web site: Becky Oskin . What Caused The Deadly China Earthquake? . . 25 September 2021 . 21 April 2013.
  3. Chao Xie . Jinshuo Wang . Wei Pang . Siyuan He . Zongpan Bian . Yang Wang . Bengang Zhou . Reevaluation of the Seismogenic Fault of the 1654 M8.0 Tianshui Earthquake: Evidence from Geology, Geomorphology, and Chronology along the Lixian-Luojiapu Fault . Lithosphere . 19 October 2021 . 2021 . 2 . 10.2113/2021/6799781 . 2021Lsphe2021S9781X . free .
  4. Xu . Yueren . Liu-Zeng . Jing . Allen . Mark B. . Du . Peng . Zhang . Weiheng . Li . Wenqiao . Tian . Qinjian . Understanding historical earthquakes by mapping coseismic landslides in the Loess Plateau, northwest China . Earth Surface Processes and Landforms . 2022 . 47 . 9 . 2266–2282 . 10.1002/esp.5375. 2022ESPL...47.2266X . 248143595 .
  5. Peng . Chen . Shi . Wei . Hu . Jianmin . Yan . Bing . Lu . Haifeng . Identification of the Seismogenic Fault of the 1654 M 8.0 Tianshui Earthquake, Northeastern Tibetan Plateau . Seismological Research Letters . 2021 . 92 . 5 . 2943–2951 . 10.1785/0220200256. 2021SeiRL..92.2943C . 235562135 .
  6. Web site: Significant Earthquake Information . ngdc.noaa.gov . NOAA National Centers for Environmental Information . 24 October 2021.