Surface deformation and damage of 2022 (M 6.8) Luding earthquake in China and its tectonic implications

Surface deformation and damage of 2022 (M 6.8) Luding earthquake in China and its tectonic implications

The 2022 ( 6.8) Luding earthquake on the Xianshuihe Fault Zone (XFZ) caused severe casualties and property losses, and surface deformation and damage of which is crucial for studying the earthquake hazard assessment. However, few intensive scientific understanding has obtained to date because of wid...

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Bibliographic Details
Published in:Open Geosciences Vol. 15; no. 1; pp. 413 - 23
Main Authors: Chen, Baixu, Yu, Zhongyuan, Li, Luwei, Zheng, Rongying, Wu, Chuanyong
Format: Journal Article
Language:English
Published: Warsaw De Gruyter 12-06-2023
De Gruyter Poland
Subjects:
2022 Luding earthquake
China
coseismic surface deformation
Earthquakes
Geological hazards
Landslides
Seismic activity
Spatial distribution
surface faulting
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Summary:The 2022 ( 6.8) Luding earthquake on the Xianshuihe Fault Zone (XFZ) caused severe casualties and property losses, and surface deformation and damage of which is crucial for studying the earthquake hazard assessment. However, few intensive scientific understanding has obtained to date because of widespread coronavirus transmission, strong vegetation coverage, and post-earthquake paralyzed traffic. By integrating high-resolution satellite images, large-scale geomorphic mapping, and UAV surveys, we constrain coseismic fractures and ruptures along an NW-SE-trending surface deformation zone, with discontinuous geomorphic scarps, cracks, and bulges concentrated in the areas of Yanzigou, Moxi, Menghugang, and Xingfu villages near the epicenter. Field observation also shows that the zone extends nearly parallel to the pre-existing XFZ with a length of ∼35 km with variable widths and a maximum vertical displacement of ∼100 ± 10 cm. The earthquake-induced surface coseismic effects, such as landslides, rock falls, and collapses, caused damage to the area. The amplification effect of the topography and the improper aseismic design and poor constructions may be responsible for the spatial distribution of MM Intensity IX, which is larger than other previous earthquakes that occurred in the surrounding area with a similar tectonic setting.
ISSN:2391-5447
2391-5447
DOI:10.1515/geo-2022-0490