Progressive tectonic evolution from crustal shortening to mid-lower crustal expansion in the southeast Tibetan Plateau: A synthesis of structural and thermochronological insights

Existing end-member models sparked debates concerning plateau formation in the southeast Tibetan Plateau through early-middle Cenozoic transpressional and shortening deformation or late Cenozoic regional lower crustal flow with limited crustal shortening. Therefore, the spatiotemporal pattern of def...

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Published inEarth-science reviews Vol. 226; p. 103951
Main Authors Zhang, Guihong, Tian, Yuntao, Li, Rui, Shen, Xiaoming, Zhang, Zengjie, Sun, Xilin, Chen, Dongxu
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2022
Subjects
China
deformation
Intracontinental tectonics
Low-temperature thermochronology
Mid-lower crust thickening
Miocene epoch
Precambrian time
rivers
tectonics
temperature
thermochronology
Tibetan Plateau
Xianshuihe-Xiaojiang fault
Yuanmou antiform
China
Low-temperature thermochronology
Tibetan Plateau
Mid-lower crust thickening
Yuanmou antiform
Xianshuihe-Xiaojiang fault
Intracontinental tectonics
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Abstract Existing end-member models sparked debates concerning plateau formation in the southeast Tibetan Plateau through early-middle Cenozoic transpressional and shortening deformation or late Cenozoic regional lower crustal flow with limited crustal shortening. Therefore, the spatiotemporal pattern of deformation and exhumation is essential for distinguishing these models. Here, we present a compilation of new and previously published structural and geo-thermochronological data to explore the Cenozoic deformation history and the underpinning mechanism of the southeast Tibetan Plateau. The synthesis shows two main phases of deformation during the Cenozoic: (1) spaced late Eocene-early Miocene crustal shortening and thickening along major fault zones, including the Ailaoshan-Red River, the Xianshuihe-Xiaojiang and Yalong-Yulong faults, and (2) late Miocene deformation and exhumation that is widely distributed within and away from the major faults. Our new structural analysis in the Yuanmou area, bounded by the major fault zones, reveals an open ~N-trending antiform, named here as Yuanmou antiform, outcropping Precambrian basement in core, mantled by Mesozoic-Cenozoic strata. The youngest strata (upper Cretaceous-Paleogene) involved in the folding are unconformably overlain by undeformed late Miocene deposits, suggesting that the antiform accommodated a phase of early-middle Cenozoic ~E-W contraction, whose shortening rate is estimated as ~9%. The timing of the Cenozoic folding is quantified as ~40–28 Ma by low temperature thermochronological data. Our study shows that late Eocene-early Miocene crustal shortening and surface uplift mainly occurs along major fault zones, with limited shortening in the intervening regions. Such a shortening pattern and history suggests the formation of the regional crustal thickening and surface uplift should have occurred in the late Miocene time. Here we proposed a new progressive deformation model to explain the deformation history and the regional crustal thickening. The model infers that the spaced late Eocene-early Miocene shortening thickened the crust beneath major fault zones and progressively led to the late Miocene lateral diffusive expansion of the mid-lower crust after sufficient thermal weakening at a timescale of ~30–20 Myr. The expansion of the weakened mid-lower crust resulted in regional crustal thickening and surface uplift in the southeast Tibetan Plateau. •Structural and thermochronological data reveal limited late Eocene-early Oligocene shortening in areas between major faults.•The SE Tibetan Plateau experienced late Eocene-early Miocene spaced shortening and late Miocene distributed deformation.•Prior shortening weakened the crust and led to late Miocene mid-lower crustal expansion and regional surface uplift.
AbstractList Existing end-member models sparked debates concerning plateau formation in the southeast Tibetan Plateau through early-middle Cenozoic transpressional and shortening deformation or late Cenozoic regional lower crustal flow with limited crustal shortening. Therefore, the spatiotemporal pattern of deformation and exhumation is essential for distinguishing these models. Here, we present a compilation of new and previously published structural and geo-thermochronological data to explore the Cenozoic deformation history and the underpinning mechanism of the southeast Tibetan Plateau. The synthesis shows two main phases of deformation during the Cenozoic: (1) spaced late Eocene-early Miocene crustal shortening and thickening along major fault zones, including the Ailaoshan-Red River, the Xianshuihe-Xiaojiang and Yalong-Yulong faults, and (2) late Miocene deformation and exhumation that is widely distributed within and away from the major faults. Our new structural analysis in the Yuanmou area, bounded by the major fault zones, reveals an open ~N-trending antiform, named here as Yuanmou antiform, outcropping Precambrian basement in core, mantled by Mesozoic-Cenozoic strata. The youngest strata (upper Cretaceous-Paleogene) involved in the folding are unconformably overlain by undeformed late Miocene deposits, suggesting that the antiform accommodated a phase of early-middle Cenozoic ~E-W contraction, whose shortening rate is estimated as ~9%. The timing of the Cenozoic folding is quantified as ~40–28 Ma by low temperature thermochronological data. Our study shows that late Eocene-early Miocene crustal shortening and surface uplift mainly occurs along major fault zones, with limited shortening in the intervening regions. Such a shortening pattern and history suggests the formation of the regional crustal thickening and surface uplift should have occurred in the late Miocene time. Here we proposed a new progressive deformation model to explain the deformation history and the regional crustal thickening. The model infers that the spaced late Eocene-early Miocene shortening thickened the crust beneath major fault zones and progressively led to the late Miocene lateral diffusive expansion of the mid-lower crust after sufficient thermal weakening at a timescale of ~30–20 Myr. The expansion of the weakened mid-lower crust resulted in regional crustal thickening and surface uplift in the southeast Tibetan Plateau.
Existing end-member models sparked debates concerning plateau formation in the southeast Tibetan Plateau through early-middle Cenozoic transpressional and shortening deformation or late Cenozoic regional lower crustal flow with limited crustal shortening. Therefore, the spatiotemporal pattern of deformation and exhumation is essential for distinguishing these models. Here, we present a compilation of new and previously published structural and geo-thermochronological data to explore the Cenozoic deformation history and the underpinning mechanism of the southeast Tibetan Plateau. The synthesis shows two main phases of deformation during the Cenozoic: (1) spaced late Eocene-early Miocene crustal shortening and thickening along major fault zones, including the Ailaoshan-Red River, the Xianshuihe-Xiaojiang and Yalong-Yulong faults, and (2) late Miocene deformation and exhumation that is widely distributed within and away from the major faults. Our new structural analysis in the Yuanmou area, bounded by the major fault zones, reveals an open ~N-trending antiform, named here as Yuanmou antiform, outcropping Precambrian basement in core, mantled by Mesozoic-Cenozoic strata. The youngest strata (upper Cretaceous-Paleogene) involved in the folding are unconformably overlain by undeformed late Miocene deposits, suggesting that the antiform accommodated a phase of early-middle Cenozoic ~E-W contraction, whose shortening rate is estimated as ~9%. The timing of the Cenozoic folding is quantified as ~40–28 Ma by low temperature thermochronological data. Our study shows that late Eocene-early Miocene crustal shortening and surface uplift mainly occurs along major fault zones, with limited shortening in the intervening regions. Such a shortening pattern and history suggests the formation of the regional crustal thickening and surface uplift should have occurred in the late Miocene time. Here we proposed a new progressive deformation model to explain the deformation history and the regional crustal thickening. The model infers that the spaced late Eocene-early Miocene shortening thickened the crust beneath major fault zones and progressively led to the late Miocene lateral diffusive expansion of the mid-lower crust after sufficient thermal weakening at a timescale of ~30–20 Myr. The expansion of the weakened mid-lower crust resulted in regional crustal thickening and surface uplift in the southeast Tibetan Plateau. •Structural and thermochronological data reveal limited late Eocene-early Oligocene shortening in areas between major faults.•The SE Tibetan Plateau experienced late Eocene-early Miocene spaced shortening and late Miocene distributed deformation.•Prior shortening weakened the crust and led to late Miocene mid-lower crustal expansion and regional surface uplift.
ArticleNumber 103951
Author Shen, Xiaoming
Tian, Yuntao
Zhang, Zengjie
Li, Rui
Zhang, Guihong
Sun, Xilin
Chen, Dongxu
Author_xml – sequence: 1
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  surname: Zhang
  fullname: Zhang, Guihong
  organization: Guangdong Provincial Key Laboratory of Geodynamics and Geohazards, School of Earth Sciences and Engineering, Sun Yat-sen University, Guangzhou 510275, China
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  givenname: Yuntao
  surname: Tian
  fullname: Tian, Yuntao
  email: tianyuntao@mail.sysu.edu.cn
  organization: Guangdong Provincial Key Laboratory of Geodynamics and Geohazards, School of Earth Sciences and Engineering, Sun Yat-sen University, Guangzhou 510275, China
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  givenname: Rui
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  organization: Guangdong Provincial Key Laboratory of Geodynamics and Geohazards, School of Earth Sciences and Engineering, Sun Yat-sen University, Guangzhou 510275, China
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  givenname: Xiaoming
  surname: Shen
  fullname: Shen, Xiaoming
  organization: National Institute of Natural Hazards, Ministry of Emergency Management of China, Beijing, China
– sequence: 5
  givenname: Zengjie
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  fullname: Zhang, Zengjie
  organization: Guangdong Provincial Key Laboratory of Geodynamics and Geohazards, School of Earth Sciences and Engineering, Sun Yat-sen University, Guangzhou 510275, China
– sequence: 6
  givenname: Xilin
  surname: Sun
  fullname: Sun, Xilin
  organization: Guangdong Provincial Key Laboratory of Geodynamics and Geohazards, School of Earth Sciences and Engineering, Sun Yat-sen University, Guangzhou 510275, China
– sequence: 7
  givenname: Dongxu
  surname: Chen
  fullname: Chen, Dongxu
  organization: Center for Earthquake Disaster Control, Hunan Earthquake Agency, Changsha 410082, China
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Keywords Low-temperature thermochronology
Tibetan Plateau
Mid-lower crust thickening
Yuanmou antiform
Xianshuihe-Xiaojiang fault
Intracontinental tectonics
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Snippet Existing end-member models sparked debates concerning plateau formation in the southeast Tibetan Plateau through early-middle Cenozoic transpressional and...
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SubjectTerms China
deformation
Intracontinental tectonics
Low-temperature thermochronology
Mid-lower crust thickening
Miocene epoch
Precambrian time
rivers
tectonics
temperature
thermochronology
Tibetan Plateau
Xianshuihe-Xiaojiang fault
Yuanmou antiform
Title Progressive tectonic evolution from crustal shortening to mid-lower crustal expansion in the southeast Tibetan Plateau: A synthesis of structural and thermochronological insights
URI https://dx.doi.org/10.1016/j.earscirev.2022.103951
https://www.proquest.com/docview/2636445121
Volume 226
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