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Crustal Shortening and Rheological Behavior Across the Longmen Shan Fault, Eastern Margin of the Tibetan Plateau

Yage Zhu, Faqi Diao, Rongjiang Wang, Ming Hao, Zhigang Shao, Xiong Xiong

2022Geophysical Research Letters18 citationsDOIOpen Access PDF

Abstract

Abstract Knowledge of lithospheric rheology can provide fundamental insights into crustal deformation near the Longmen Shan fault (LMSF). Based on viscoelastic deformation models constrained by interseismic geodetic observations, we obtain an optimal crustal shortening rate of 4.8 ± 0.4 mm/a across the LMSF and an upper mantle viscosity of 5.0 × 10 20−21 Pa · s beneath eastern Tibet. More importantly, we find a high‐viscosity zone (>10 21 Pa · s) in the lower crust beneath the LMSF, where the steady‐state viscosity is significantly higher than the transient viscosity derived from postseismic deformation. Further investigations with a power‐law rheology suggest that, due to the stress loading of the Wenchuan earthquake and the relaxation afterwards, the effective lower crustal viscosity decreases to ∼10 18 Pa · s immediately after the earthquake and finally recovers to interseismic level (∼10 21 Pa · s). Our results highlight the stress‐dependent behavior and the viscoelastic effect of rheological structure beneath the LMSF during the earthquake cycle.

Topics & Concepts

GeologyViscoelasticityRheologyCrustLithosphereViscosityDeformation (meteorology)Stress relaxationSeismologyMantle (geology)Fault (geology)PetrologyGeophysicsCreepMaterials scienceTectonicsComposite materialOceanographyearthquake and tectonic studiesHigh-pressure geophysics and materialsGeological and Geochemical Analysis
Crustal Shortening and Rheological Behavior Across the Longmen Shan Fault, Eastern Margin of the Tibetan Plateau | Litcius