Crustal deformation along the Longmen-Shan fault zone and its implications for seismogenesis

The Longmen-Shan fault zone, at the eastern margin of the Tibetan Plateau, is one of the most extensively studied areas in the world, yet the deformation model and earthquake-generating mechanism remain subjects of vigorous debate. This paper presents a new three-dimensional (3-D) velocity model det...

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Published inTectonophysics Vol. 610; pp. 128 - 137
Main Authors Wang, Zhi, Huang, Runqiu, Pei, Shunping
Format Journal Article
LanguageEnglish
Published Elsevier B.V 06.01.2014
Subjects
Anomalies
Continental colliding
Crustal channel flow
Crustal deformation
Crusts
Deformation
Faults
Longmen-Shan fault zone
Marine
Rock
Segments
Seismic phenomena
Seismogenesis
Three dimensional models
China, People's Rep., Xizang, Tibetan Plateau
Crustal deformation
Seismogenesis
Longmen-Shan fault zone
Continental colliding
Crustal channel flow
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Abstract The Longmen-Shan fault zone, at the eastern margin of the Tibetan Plateau, is one of the most extensively studied areas in the world, yet the deformation model and earthquake-generating mechanism remain subjects of vigorous debate. This paper presents a new three-dimensional (3-D) velocity model determined using a large volume of seismic data and two-dimensional (2-D) magnetotelluric (MT) profiles from previous studies, to investigate the mechanisms of crustal deformation and earthquake generation along the reverse-thrust and strike-slip fault zone. It has been observed that low-velocity, and low-resistivity anomalies related to the Sichuan foreland basin, is in sharp contrast to high-velocity and high-resistivity anomalies in the Songpan-Ganze block in the upper crust. The tomographic model presented here reveals two crustal bodies with low-velocity and high-conductivity anomalies underneath the Longmen-Shan fault zone, separated into three contrasting segments by the two crustal bodies. The two low-velocity and low-resistivity bodies have been interpreted as being associated with extrusion of either fluids or products of partial melting from the lower crust and/or the upper mantle. This suggests strong variations in the rheological strength of the rock along the fault zone. This finding implies that coupling between these presumably fluid-bearing bodies and earthquake generation could be extremely complex and that there is dramatic variation from the southwestern area to the northeastern segment along the fault belt. It is suggested here that this complex and variable deformation system along the fault zone played a principal role in controlling seismic generation and rupturing during the 2008 Wenchuan earthquake (Ms 8.0) and that it will do so again during possible future earthquakes in the region. •New 3D velocity model along the Longmen-Shan fault zone (LMFZ) is imaged.•The velocity images reveal a sharp contrasted feature across the LMFZ.•Two crustal ductile bodies are clearly revealed along the LMFZ.•The two bodies are associated with either fluids or products of partial melting.•Fluid extrusion plays key roles in earthquake generation and rupture process.
AbstractList The Longmen-Shan fault zone, at the eastern margin of the Tibetan Plateau, is one of the most extensively studied areas in the world, yet the deformation model and earthquake-generating mechanism remain subjects of vigorous debate. This paper presents a new three-dimensional (3-D) velocity model determined using a large volume of seismic data and two-dimensional (2-D) magnetotelluric (MT) profiles from previous studies, to investigate the mechanisms of crustal deformation and earthquake generation along the reverse-thrust and strike-slip fault zone. It has been observed that low-velocity, and low-resistivity anomalies related to the Sichuan foreland basin, is in sharp contrast to high-velocity and high-resistivity anomalies in the Songpan-Ganze block in the upper crust. The tomographic model presented here reveals two crustal bodies with low-velocity and high-conductivity anomalies underneath the Longmen-Shan fault zone, separated into three contrasting segments by the two crustal bodies. The two low-velocity and low-resistivity bodies have been interpreted as being associated with extrusion of either fluids or products of partial melting from the lower crust and/or the upper mantle. This suggests strong variations in the rheological strength of the rock along the fault zone. This finding implies that coupling between these presumably fluid-bearing bodies and earthquake generation could be extremely complex and that there is dramatic variation from the southwestern area to the northeastern segment along the fault belt. It is suggested here that this complex and variable deformation system along the fault zone played a principal role in controlling seismic generation and rupturing during the 2008 Wenchuan earthquake (Ms 8.0) and that it will do so again during possible future earthquakes in the region. •New 3D velocity model along the Longmen-Shan fault zone (LMFZ) is imaged.•The velocity images reveal a sharp contrasted feature across the LMFZ.•Two crustal ductile bodies are clearly revealed along the LMFZ.•The two bodies are associated with either fluids or products of partial melting.•Fluid extrusion plays key roles in earthquake generation and rupture process.
The Longmen-Shan fault zone, at the eastern margin of the Tibetan Plateau, is one of the most extensively studied areas in the world, yet the deformation model and earthquake-generating mechanism remain subjects of vigorous debate. This paper presents a new three-dimensional (3-D) velocity model determined using a large volume of seismic data and two-dimensional (2-D) magnetotelluric (MT) profiles from previous studies, to investigate the mechanisms of crustal deformation and earthquake generation along the reverse-thrust and strike-slip fault zone. It has been observed that low-velocity, and low-resistivity anomalies related to the Sichuan foreland basin, is in sharp contrast to high-velocity and high-resistivity anomalies in the Songpan-Ganze block in the upper crust. The tomographic model presented here reveals two crustal bodies with low-velocity and high-conductivity anomalies underneath the Longmen-Shan fault zone, separated into three contrasting segments by the two crustal bodies. The two low-velocity and low-resistivity bodies have been interpreted as being associated with extrusion of either fluids or products of partial melting from the lower crust and/or the upper mantle. This suggests strong variations in the rheological strength of the rock along the fault zone. This finding implies that coupling between these presumably fluid-bearing bodies and earthquake generation could be extremely complex and that there is dramatic variation from the southwestern area to the northeastern segment along the fault belt. It is suggested here that this complex and variable deformation system along the fault zone played a principal role in controlling seismic generation and rupturing during the 2008 Wenchuan earthquake (Ms 8.0) and that it will do so again during possible future earthquakes in the region.
Author Wang, Zhi
Huang, Runqiu
Pei, Shunping
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  surname: Pei
  fullname: Pei, Shunping
  organization: Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing 100085, China
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Keywords Crustal deformation
Seismogenesis
Longmen-Shan fault zone
Continental colliding
Crustal channel flow
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Snippet The Longmen-Shan fault zone, at the eastern margin of the Tibetan Plateau, is one of the most extensively studied areas in the world, yet the deformation model...
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SubjectTerms Anomalies
Continental colliding
Crustal channel flow
Crustal deformation
Crusts
Deformation
Faults
Longmen-Shan fault zone
Marine
Rock
Segments
Seismic phenomena
Seismogenesis
Three dimensional models
Title Crustal deformation along the Longmen-Shan fault zone and its implications for seismogenesis
URI https://dx.doi.org/10.1016/j.tecto.2013.11.004
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