Crustal and Upper Mantle Velocity Structure of SE Tibet From Joint Inversion of Rayleigh Wave Phase Velocity and Teleseismic Body Wave Data
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Yang, Xiaozhou
Luo, Yinhe
Jiang, Chengxin
Yang, Yingjie
Niu, Fenglin
Li, Guoliang
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Wiley Blackwell
Abstract
Since the continental collision between the Indian and Eurasian plates began about 50 Ma ago,
southeastern Tibet (SET) has undergone complex tectonic deformation. In this study, we investigate fine scale
structural features of the crustal and upper mantle depths (<250 km) beneath SET, which hold important clues
to understanding the dynamic processes related to this collision. A 3D shear velocity model is constructed
through jointly inverting Rayleigh wave phase velocity and teleseismic body wave data from more than 650
stations. Our 3D model identifies three independent low-velocity zones (LVZs) in the mid-lower crust with
unprecedented details. More specifically, we observe a prominent LVZ beneath the North Chuan-Dian Block,
which is well separated from another LVZ beneath the Tengchong volcano in the south. This LVZ beneath
the volcano represents a focused magma reservoir in the crust whose origin is potentially linked to the mantle
upwelling associated with the eastward subduction of the Indian plate. The third LVZ, observed around the
Xiaojiang Fault, likely represents a separated and mechanically weak layer in the mid-lower crust due to the
combined effects of regional crustal thickening under the southeastward plateau expansion, mantle upwelling,
and shear heating of strike-slip faults. In the upper mantle, we observe strong velocity reductions both in
localized areas beneath the Tibetan Plateau and the broad region south of 26°N. These low velocity anomalies
are sitting above high velocity anomalies at deeper depths, suggesting their association with lithospheric
thickening and delamination processes.
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Journal of Geophysical Research: Solid Earth