Seismic Anisotropy from SKS Splitting beneath Northeastern Tibet
Seismic Anisotropy from SKS Splitting beneath Northeastern Tibet
The northeastern boundary of the Tibetan high plateau is marked by a 2 km topographic drop and a coincident rapid change in crustal thickness. Surface tectonics are dominated by the Kunlun strike?slip fault system and adjacent Kunlun concealed thrust. The main objective of the current study is to map lateral variations of seismic anisotropy parameters in this region along the linear INDEPTH IV array in order to investigate the link between surface and internal deformation in the context of crust and mantle structure. To achieve this aim, we performed Minimum?Transverse?Energy based SKS splitting measurements using 23 stations of the INDEPTH IV array deployed across the northeastern margin of Tibet. Average fast polarization directions and splitting time delays are obtained by averaging stacked misfit surfaces of all analyzed events at each station. The agreement of fast directions with the strikes of major active strike?slip faults and strike?slip focal mechanisms, but not with fossil structures such as the Jinsha suture, implies that the anisotropy records lithospheric petrofabric formed by recent deformation within the lithosphere rather than representing frozen?in anisotropy or shear within the asthenosphere due to absolute plate motion. The distribution of large splitting delays throughout the northern plateau suggests that deformation is distributed rather than focused onto narrow shear zones associated with the Kunlun strike?slip faults. The drop in splitting delays toward the Qaidam is then a natural consequence of the much lower degree of deformation there.
3362-3371
Eken, T.
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Tilmann, F.
c87106f7-5168-457f-9a65-1608ba212228
Mechie, J.
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Zhao, W.
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Kind, R.
fab083d3-08dc-4187-9e58-6ebecbb14d8d
Su, H.
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Xue, G.
7e66b90b-0958-4f19-b4a6-2f07a87fbfab
Karplus, M.
84290744-0750-46d7-99be-5dd155332903
December 2013
Eken, T.
fae060cf-53d7-46e6-82f8-d5ef7676e5b4
Tilmann, F.
c87106f7-5168-457f-9a65-1608ba212228
Mechie, J.
012760b8-3eba-4999-86f3-a2642f5d9b9d
Zhao, W.
ac9b3ab6-bdcd-4169-bf85-319a09f24a07
Kind, R.
fab083d3-08dc-4187-9e58-6ebecbb14d8d
Su, H.
6e5164ea-6819-4fed-82a8-b22b89aed7fe
Xue, G.
7e66b90b-0958-4f19-b4a6-2f07a87fbfab
Karplus, M.
84290744-0750-46d7-99be-5dd155332903
Eken, T., Tilmann, F., Mechie, J., Zhao, W., Kind, R., Su, H., Xue, G. and Karplus, M.
(2013)
Seismic Anisotropy from SKS Splitting beneath Northeastern Tibet.
Bulletin of the Seismological Society of America, 103 (6), .
(doi:10.1785/0120130054).
Abstract
The northeastern boundary of the Tibetan high plateau is marked by a 2 km topographic drop and a coincident rapid change in crustal thickness. Surface tectonics are dominated by the Kunlun strike?slip fault system and adjacent Kunlun concealed thrust. The main objective of the current study is to map lateral variations of seismic anisotropy parameters in this region along the linear INDEPTH IV array in order to investigate the link between surface and internal deformation in the context of crust and mantle structure. To achieve this aim, we performed Minimum?Transverse?Energy based SKS splitting measurements using 23 stations of the INDEPTH IV array deployed across the northeastern margin of Tibet. Average fast polarization directions and splitting time delays are obtained by averaging stacked misfit surfaces of all analyzed events at each station. The agreement of fast directions with the strikes of major active strike?slip faults and strike?slip focal mechanisms, but not with fossil structures such as the Jinsha suture, implies that the anisotropy records lithospheric petrofabric formed by recent deformation within the lithosphere rather than representing frozen?in anisotropy or shear within the asthenosphere due to absolute plate motion. The distribution of large splitting delays throughout the northern plateau suggests that deformation is distributed rather than focused onto narrow shear zones associated with the Kunlun strike?slip faults. The drop in splitting delays toward the Qaidam is then a natural consequence of the much lower degree of deformation there.
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Published date: December 2013
Organisations:
Geology & Geophysics
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Local EPrints ID: 361122
URI: http://eprints.soton.ac.uk/id/eprint/361122
ISSN: 0037-1106
PURE UUID: 8341e6cc-472f-4d39-9f2f-d4bd9a42b89e
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Date deposited: 13 Jan 2014 16:33
Last modified: 14 Mar 2024 15:46
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Author:
T. Eken
Author:
F. Tilmann
Author:
J. Mechie
Author:
W. Zhao
Author:
R. Kind
Author:
H. Su
Author:
G. Xue
Author:
M. Karplus
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