1. Two crustal low-velocity channels beneath SE Tibet revealed by joint inversion of Rayleigh wave dispersion and receiver functions.
- Author
-
Bao, Xuewei, Sun, Xiaoxiao, Xu, Mingjie, Eaton, David W., Song, Xiaodong, Wang, Liangshu, Ding, Zhifeng, Mi, Ning, Li, Hua, Yu, Dayong, Huang, Zhouchuan, and Wang, Pan
- Subjects
- *
GEODYNAMICS , *RAYLEIGH waves , *DISPERSION (Chemistry) , *INVERSION (Geophysics) , *EXTRUSION process - Abstract
Competing geodynamic models, such as rigid-block extrusion, continuous deformation, and the mid-lower crustal flow, have been proposed to describe the growth and expansion of eastern Tibet. However, the dynamic processes responsible for plateau evolution and deformation remain poorly understood partly due to resolution limitations of previous models of lithospheric structure. On the basis of joint inversion of Rayleigh wave dispersion and receiver functions using data from a newly deployed seismic array, we have obtained a high-resolution 3D image that reveals the distribution of low-velocity zones (LVZs) with unprecedented clarity. The prominent feature of our model is two low-velocity channels that bound major strike-slip faults in SE Tibet and wrap around the Eastern Himalaya Syntaxis, consistent with the clockwise movement of crustal material in this region. Most large earthquakes in this region occurred in the boundaries of the LVZs. We propose that ductile flow within these channels, in addition to shear motion along strike-slip faults, played a significant role in accommodating intensive lithospheric deformation during the eastward expansion of Tibet in the Cenozoic. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF