Lithospheric structure beneath Indochina block from Rayleigh wave phase velocity tomography
Lithospheric structure beneath Indochina block from Rayleigh wave phase velocity tomography
The Indochina block is important to our understanding of the extrusion model as a consequence of the Indo-Eurasia collision. The lithospheric structure of this block, however, remains obscured due to a lack of sufficient instrumentation for high resolution seismic imaging. We present a shear velocity model derived from Rayleigh wave phase velocity tomography using data from recently deployed seismic networks in this region. Our inversion results for lithospheric structure show strong correlations with tectonic history in this block. A prominent slow-velocity anomaly (5?per?cent) is observed in northern Indochina along the Ailao Shan-Red River (ASRR) shear zone including Chuxiong basin, Lanping-Simao fold belt and Thailand rift basin, which has seen extensive deformation events since Eocene. The Khorat Plateau basin is characterized by thick continental keel type lithosphere, consistent with palaeomagnetic and geological observations indicating this basin has experienced much less deformation than the surrounding regions. Additionally, our inversion imaged a sharp, lithospheric-scale velocity contrast across the southeastern segment of ASRR, indicative of a thin and thus relatively weak lithosphere southwest of Red River Fault. The thin lithosphere, low asthenospheric seismic velocities we observe and the average crustal thicknesses in the region suggest that the topography high is dynamically supported by upwelling asthenosphere rather than thickening of the crust/lithosphere. Based on the occurrence of Palaeogene volcanism and its timing, we prefer an explanation of thinning of the lithosphere and allowing a throughgoing fault rather than emplacement of a thin terrane to explain the thin lithosphere. Therefore, the anomalously thin lithosphere between Khorat Plateau and the ASRR in conjunction with other geological observations is generally consistent with the extrusion model for Indochina, which requires localization of lithospheric deformation around tectonic blocks.
Surface waves and free oscillations, Seismic tomography, Continental tectonics: strike-slip and transform, Dynamics of lithosphere and mantle
1582-1595
Yang, T.
4c66e85c-7c09-48ea-9f67-ccc4e0d1449a
Liu, F.
a6c6cb16-dd15-4956-a046-2560fa512d60
Harmon, N.
10d11a16-b8b0-4132-9354-652e72d8e830
Le, K.P.
d297b33f-4c8c-4d40-a66f-e458bf752e7d
Gu, S.
bac1c02d-1867-47c3-81a7-0f25fc891a96
Xue, M.
07a27e98-8053-42b9-b677-d4c937433afd
March 2015
Yang, T.
4c66e85c-7c09-48ea-9f67-ccc4e0d1449a
Liu, F.
a6c6cb16-dd15-4956-a046-2560fa512d60
Harmon, N.
10d11a16-b8b0-4132-9354-652e72d8e830
Le, K.P.
d297b33f-4c8c-4d40-a66f-e458bf752e7d
Gu, S.
bac1c02d-1867-47c3-81a7-0f25fc891a96
Xue, M.
07a27e98-8053-42b9-b677-d4c937433afd
Yang, T., Liu, F., Harmon, N., Le, K.P., Gu, S. and Xue, M.
(2015)
Lithospheric structure beneath Indochina block from Rayleigh wave phase velocity tomography.
Geophysical Journal International, 200 (3), .
(doi:10.1093/gji/ggu488).
Abstract
The Indochina block is important to our understanding of the extrusion model as a consequence of the Indo-Eurasia collision. The lithospheric structure of this block, however, remains obscured due to a lack of sufficient instrumentation for high resolution seismic imaging. We present a shear velocity model derived from Rayleigh wave phase velocity tomography using data from recently deployed seismic networks in this region. Our inversion results for lithospheric structure show strong correlations with tectonic history in this block. A prominent slow-velocity anomaly (5?per?cent) is observed in northern Indochina along the Ailao Shan-Red River (ASRR) shear zone including Chuxiong basin, Lanping-Simao fold belt and Thailand rift basin, which has seen extensive deformation events since Eocene. The Khorat Plateau basin is characterized by thick continental keel type lithosphere, consistent with palaeomagnetic and geological observations indicating this basin has experienced much less deformation than the surrounding regions. Additionally, our inversion imaged a sharp, lithospheric-scale velocity contrast across the southeastern segment of ASRR, indicative of a thin and thus relatively weak lithosphere southwest of Red River Fault. The thin lithosphere, low asthenospheric seismic velocities we observe and the average crustal thicknesses in the region suggest that the topography high is dynamically supported by upwelling asthenosphere rather than thickening of the crust/lithosphere. Based on the occurrence of Palaeogene volcanism and its timing, we prefer an explanation of thinning of the lithosphere and allowing a throughgoing fault rather than emplacement of a thin terrane to explain the thin lithosphere. Therefore, the anomalously thin lithosphere between Khorat Plateau and the ASRR in conjunction with other geological observations is generally consistent with the extrusion model for Indochina, which requires localization of lithospheric deformation around tectonic blocks.
This record has no associated files available for download.
More information
Published date: March 2015
Keywords:
Surface waves and free oscillations, Seismic tomography, Continental tectonics: strike-slip and transform, Dynamics of lithosphere and mantle
Organisations:
Geology & Geophysics
Identifiers
Local EPrints ID: 374871
URI: http://eprints.soton.ac.uk/id/eprint/374871
ISSN: 0956-540X
PURE UUID: 774b1416-ba1f-4dd6-a90e-f16a66a96572
Catalogue record
Date deposited: 04 Mar 2015 10:32
Last modified: 15 Mar 2024 03:33
Export record
Altmetrics
Contributors
Author:
T. Yang
Author:
F. Liu
Author:
K.P. Le
Author:
S. Gu
Author:
M. Xue
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
