Study on Lithospheric Tectonic Features of Tianshan and Adjacent Regions and the Genesis Mechanism of the Wushi Ms7.1 Earthquake

Study on Lithospheric Tectonic Features of Tianshan and Adjacent Regions and the Genesis Mechanism of the Wushi Ms7.1 Earthquake

In this study, we analyzed the lithospheric seismic background of the Tianshan and adjacent areas by combining various geophysical methods (effective elastic thickness, time-varying gravity, apparent density, and InSAR), and explored the genesis mechanism of the Wushi Ms7.1 earthquake as an example,...

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Bibliographic Details
Main Authors: Kai Han, Daiqin Liu, Ailixiati Yushan, Wen Shi, Jie Li, Xiangkui Kong, Hao He
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Remote Sensing
Subjects:
Tianshan and adjacent areas
effective elastic thickness of the lithosphere
time-varying gravity
apparent density of field sources
InSAR
environment of the lithosphere pregnant with earthquakes
Online Access:https://www.mdpi.com/2072-4292/17/15/2655
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Summary:In this study, we analyzed the lithospheric seismic background of the Tianshan and adjacent areas by combining various geophysical methods (effective elastic thickness, time-varying gravity, apparent density, and InSAR), and explored the genesis mechanism of the Wushi Ms7.1 earthquake as an example, which led to the following conclusions: (1) The effective elastic thickness (Te) of the Tianshan lithosphere is low (13–28 km) and weak, while the Tarim and Junggar basins have Te > 30 km with high intensity, and the loads are all mainly from the surface (F < 0.5). Earthquakes occur mostly in areas with low values of Te. (2) Medium and strong earthquakes are prone to occur in regions with alternating positive and negative changes in the gravity field during the stage of large-scale reverse adjustment. It is expected that the risk of a moderate-to-strong earthquake occurring again in the vicinity of the survey area between 2025 and 2026 is relatively high. (3) Before the Wushi earthquake, the positive and negative boundaries of the apparent density of the crust at 12 km shifted to be approximately parallel to the seismic fault, and the earthquake was triggered after undergoing a “solidification” process. (4) The Wushi earthquake is a leptokurtic strike-slip backwash type of earthquake; coseismic deformation shows that subsidence occurs in the high-visual-density zone, and vice versa for uplift. The results of this study reveal the lithosphere-conceiving environment of the Tianshan and adjacent areas and provide a basis for regional earthquake monitoring, early warning, and post-disaster disposal.
ISSN:2072-4292

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