Middle Triassic to Late Jurassic climate change on the northern margin of the South China Plate: Insights from chemical weathering indices and clay mineralogy

The early Mesozoic greenhouse period was characterized by variable climate conditions. The driving mechanisms of this long-term variability are unclear due to a lack of full-period climate reconstructions. In particular, reconstructions of the terrestrial environment are rare, especially reconstruct...

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Published inPalaeogeography, palaeoclimatology, palaeoecology Vol. 585; p. 110744
Main Authors Dai, Xianduo, Du, Yuansheng, Ziegler, Martin, Wang, Chaowen, Ma, Qianli, Chai, Rong, Guo, Hua
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2022
Subjects
arid zones
China
clay
climate change
Dangyang Basin
diagenesis
greenhouses
humid zones
kaolinite
Late Jurassic epoch
Mesozoic
Middle Jurassic epoch
Mudrock
palaeogeography
paleoclimatology
paleoecology
plagioclase
provenance
rare earth elements
smectite
sodium
The chemical index of alteration
topography
Triassic period
Zigui Basin
China
Mesozoic
Dangyang Basin
Zigui Basin
Mudrock
The chemical index of alteration
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Abstract The early Mesozoic greenhouse period was characterized by variable climate conditions. The driving mechanisms of this long-term variability are unclear due to a lack of full-period climate reconstructions. In particular, reconstructions of the terrestrial environment are rare, especially reconstructions representing South China during the early Mesozoic period. We focused on the major, trace and rare earth element compositions and clay mineralogy of 173 mudstones from the northern margin of the South China Plate. These data were used as proxies to evaluate the weathering intensity and reconstruct the climate variability from the Middle Triassic to the Late Jurassic after considering the potential effects of provenance, diagenesis and sedimentary sorting and recycling. From the latest part of the Triassic to the early Middle Jurassic, five well-correlated chemical weathering indices, the chemical index of alteration (CIA), chemical index of weathering (CIW), plagioclase index of alteration (PIA), sodium depletion index (τNa) and weathering index of Parker (WIP), imply an advanced degree of chemical weathering (e.g., CIAcorr, the corrected CIA, ranging from 71.1 to 88.0) and a clay mineral assemblage zone with abundant kaolinite. Together, these findings indicate a dominant humid climate. In the pre-Late Triassic and post-Middle Jurassic, the dominant seasonally arid climate was characterized by low and widely variable chemical weathering index values (e.g., CIAcorr values of 59.4–85.4) and clay mineral assemblage zones containing chlorite, smectite and mixed-layer illite–smectite but less kaolinite. We suggest that PCO2 variations, the megamonsoon effect, plate motion and regional topography all contributed to the observed climate changes during the early Mesozoic. •Early Mesozoic terrestrial climate change on the South China Plate was revealed.•A seasonally arid climate prevailed pre-Late Triassic and post- Middle Jurassic.•The humid climate of the Late Triassic–Early Jurassic interrupted this arid climate.•PCO2, a megamonsoon, plate motion and topography jointly controlled climate change.
AbstractList The early Mesozoic greenhouse period was characterized by variable climate conditions. The driving mechanisms of this long-term variability are unclear due to a lack of full-period climate reconstructions. In particular, reconstructions of the terrestrial environment are rare, especially reconstructions representing South China during the early Mesozoic period. We focused on the major, trace and rare earth element compositions and clay mineralogy of 173 mudstones from the northern margin of the South China Plate. These data were used as proxies to evaluate the weathering intensity and reconstruct the climate variability from the Middle Triassic to the Late Jurassic after considering the potential effects of provenance, diagenesis and sedimentary sorting and recycling. From the latest part of the Triassic to the early Middle Jurassic, five well-correlated chemical weathering indices, the chemical index of alteration (CIA), chemical index of weathering (CIW), plagioclase index of alteration (PIA), sodium depletion index (τNa) and weathering index of Parker (WIP), imply an advanced degree of chemical weathering (e.g., CIAcorr, the corrected CIA, ranging from 71.1 to 88.0) and a clay mineral assemblage zone with abundant kaolinite. Together, these findings indicate a dominant humid climate. In the pre-Late Triassic and post-Middle Jurassic, the dominant seasonally arid climate was characterized by low and widely variable chemical weathering index values (e.g., CIAcorr values of 59.4–85.4) and clay mineral assemblage zones containing chlorite, smectite and mixed-layer illite–smectite but less kaolinite. We suggest that PCO2 variations, the megamonsoon effect, plate motion and regional topography all contributed to the observed climate changes during the early Mesozoic. •Early Mesozoic terrestrial climate change on the South China Plate was revealed.•A seasonally arid climate prevailed pre-Late Triassic and post- Middle Jurassic.•The humid climate of the Late Triassic–Early Jurassic interrupted this arid climate.•PCO2, a megamonsoon, plate motion and topography jointly controlled climate change.
The early Mesozoic greenhouse period was characterized by variable climate conditions. The driving mechanisms of this long-term variability are unclear due to a lack of full-period climate reconstructions. In particular, reconstructions of the terrestrial environment are rare, especially reconstructions representing South China during the early Mesozoic period. We focused on the major, trace and rare earth element compositions and clay mineralogy of 173 mudstones from the northern margin of the South China Plate. These data were used as proxies to evaluate the weathering intensity and reconstruct the climate variability from the Middle Triassic to the Late Jurassic after considering the potential effects of provenance, diagenesis and sedimentary sorting and recycling. From the latest part of the Triassic to the early Middle Jurassic, five well-correlated chemical weathering indices, the chemical index of alteration (CIA), chemical index of weathering (CIW), plagioclase index of alteration (PIA), sodium depletion index (τNa) and weathering index of Parker (WIP), imply an advanced degree of chemical weathering (e.g., CIAcₒᵣᵣ, the corrected CIA, ranging from 71.1 to 88.0) and a clay mineral assemblage zone with abundant kaolinite. Together, these findings indicate a dominant humid climate. In the pre-Late Triassic and post-Middle Jurassic, the dominant seasonally arid climate was characterized by low and widely variable chemical weathering index values (e.g., CIAcₒᵣᵣ values of 59.4–85.4) and clay mineral assemblage zones containing chlorite, smectite and mixed-layer illite–smectite but less kaolinite. We suggest that PCO₂ variations, the megamonsoon effect, plate motion and regional topography all contributed to the observed climate changes during the early Mesozoic.
ArticleNumber 110744
Author Chai, Rong
Wang, Chaowen
Ma, Qianli
Ziegler, Martin
Dai, Xianduo
Du, Yuansheng
Guo, Hua
Author_xml – sequence: 1
  givenname: Xianduo
  surname: Dai
  fullname: Dai, Xianduo
  email: xianduodai@cug.edu.cn
  organization: State Key Laboratory of Biogeology and Environmental Geology, School of Earth Sciences, China University of Geosciences, 430074 Wuhan, China
– sequence: 2
  givenname: Yuansheng
  surname: Du
  fullname: Du, Yuansheng
  email: duyuansheng126@126.com
  organization: State Key Laboratory of Biogeology and Environmental Geology, School of Earth Sciences, China University of Geosciences, 430074 Wuhan, China
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  givenname: Martin
  surname: Ziegler
  fullname: Ziegler, Martin
  email: M.Ziegler@uu.nl
  organization: Department of Earth Sciences, Faculty of Geosciences, Utrecht University, 3584, CB, Utrecht, the Netherlands
– sequence: 4
  givenname: Chaowen
  surname: Wang
  fullname: Wang, Chaowen
  email: cwwang_cug@aliyun.com
  organization: Gemological Institute, China University of Geosciences, 430074 Wuhan, China
– sequence: 5
  givenname: Qianli
  surname: Ma
  fullname: Ma, Qianli
  email: maqlcug@126.com
  organization: State Key Laboratory of Biogeology and Environmental Geology, School of Earth Sciences, China University of Geosciences, 430074 Wuhan, China
– sequence: 6
  givenname: Rong
  surname: Chai
  fullname: Chai, Rong
  email: rong_chai@163.com
  organization: State Key Laboratory of Biogeology and Environmental Geology, School of Earth Sciences, China University of Geosciences, 430074 Wuhan, China
– sequence: 7
  givenname: Hua
  surname: Guo
  fullname: Guo, Hua
  email: guohuacug@163.com
  organization: State Key Laboratory of Biogeology and Environmental Geology, School of Earth Sciences, China University of Geosciences, 430074 Wuhan, China
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Keywords Mesozoic
Dangyang Basin
Zigui Basin
Mudrock
The chemical index of alteration
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Snippet The early Mesozoic greenhouse period was characterized by variable climate conditions. The driving mechanisms of this long-term variability are unclear due to...
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StartPage 110744
SubjectTerms arid zones
China
clay
climate change
Dangyang Basin
diagenesis
greenhouses
humid zones
kaolinite
Late Jurassic epoch
Mesozoic
Middle Jurassic epoch
Mudrock
palaeogeography
paleoclimatology
paleoecology
plagioclase
provenance
rare earth elements
smectite
sodium
The chemical index of alteration
topography
Triassic period
Zigui Basin
Title Middle Triassic to Late Jurassic climate change on the northern margin of the South China Plate: Insights from chemical weathering indices and clay mineralogy
URI https://dx.doi.org/10.1016/j.palaeo.2021.110744
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Volume 585
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