Seismogenic environments of earthquakes on the southeastern margin of the Tibetan Plateau revealed by double-difference tomography

The uplift and expansion of Tibetan Plateau has dramatically changed the tectonics, climate and environment of Asia, and has caused high seismic hazards at its southeastern margin as well. To better understand the generating mechanisms of regional damaging earthquakes and the plateau crustal materia...

Full description

Saved in:
Bibliographic Details
Published in:Tectonophysics 2022-11, Vol.843, p.229603, Article 229603
Main Authors: Lv, Miaomiao, Ding, Zhifeng, Xu, Xiaoming
Format: Article
Language:English
Subjects:
Double-difference tomography
Mid-lower crustal flow
Seismogenic environment
Southeast margin of the Tibetan Plateau
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The uplift and expansion of Tibetan Plateau has dramatically changed the tectonics, climate and environment of Asia, and has caused high seismic hazards at its southeastern margin as well. To better understand the generating mechanisms of regional damaging earthquakes and the plateau crustal material expansion, a high resolution crustal P-wave velocity (VP) model is obtained by double-difference tomography using the updated dataset of dense seismic array deployed in the southeastern margin of the Tibetan Plateau (SETP). The results show significant lateral heterogeneities in the upper crust and two prominent low-VP belts are revealed at mid-lower crust (20–35 km), which has a good correspondence with the major faults and has potential for the mid-lower crustal flow. Although almost all the large earthquakes are located at the boundary between high- and low-VP anomalies related to the two low-VP belts, the seismogenic mechanisms are somewhat different. Ludian and Yiliang earthquakes may be associated with the eastern low-VP anomalies in mid-lower crust, which decouples the upper and lower crust and drags the upper brittle crust leading to sinistral strike slip and thrust accompanied with dextral strike slip earthquakes, respectively. Yangbi earthquake is mainly caused by the upper crustal movement and also probably related to the compressive tectonic loading from western material migration of low-VP anomalies in mid-lower crust. As for Changning earthquake, the seismotectonics are mostly affected by water injection at slat mines. Whether the fluids or low-VP anomalies in mid-lower crust, they may weaken the seismogenic layer and make the stress concentration easier. Our results provide a new perspective to study the seismogenesis that the inhomogeneity of upper crust and the mechanically weak materials in mid-lower crust play an important role in triggering and generating crustal damaging earthquakes in SETP, which also helps illuminate the uplift and deformational mode of the plateau. •We obtain the high-resolution 3-D VP model of the crust beneath the SETP, which provides new constraints on the intrinsic relationship between seismogenesis and structural heterogeneities.•Our results reveal two prominent low-VP belts at depths of 20–35 km. The western low-VP belt beneath Chuandian diamond block and the eastern low-VP belt around the Xiaojiang fault zone.•It provides a new perspective to study the seismogenesis in SETP and helps illuminate the uplift and def
ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2022.229603