Vegetation response to Holocene climate change in East Asian monsoon-margin region

Fossil pollen records from 20 sites with reliable chronologies and high-resolution data in the East Asian monsoon margin region were synthesized to document Holocene vegetation and climate change and to understand the large-scale controls. The vegetation experienced different changes over the Holoce...

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Published inEarth-science reviews Vol. 113; no. 1-2; pp. 1 - 10
Main Authors Zhao, Yan, Yu, Zicheng
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.06.2012
Elsevier Sequoia S.A
Subjects
China
climate
Climate change
East Asian monsoon
Forests
Fossil pollen
Fossils
Holocene
meadows
monsoon season
Pollen
Spatial complexity
steppes
summer
temperate forests
topography
Vegetation
Vegetation response
China
China, People's Rep., Xizang, Tibetan Plateau
China, People's Rep
East Asian monsoon
Climate change
Spatial complexity
Holocene
Vegetation response
Fossil pollen
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Abstract Fossil pollen records from 20 sites with reliable chronologies and high-resolution data in the East Asian monsoon margin region were synthesized to document Holocene vegetation and climate change and to understand the large-scale controls. The vegetation experienced different changes over the Holocene in various sub-regions. (1) Near the boundary between modern forest and temperate steppe in Northeast China, forest showed clear expansion in the middle Holocene. (2) In central China near the boundary between steppe/forest and desert, vegetation showed various patterns at different sites. (3) Further west on the Tibetan Plateau near the boundary between highland meadow/steppe and semi-desert/desert, forest expanded at most sites during the early and middle Holocene. Our synthesis indicates that climate in the margin region was slightly moist in the early Holocene, wettest in the middle Holocene, and dry in the late Holocene, though there are regional differences as reflected by vegetation change. This general pattern is very different from either monsoon- or westerly-dominated regions. The maximum moisture occurred during the early Holocene in the monsoon region, while the arid central Asia dominated by the westerlies was driest in the early Holocene and wettest in the mid-Holocene. The interplay of the Asian summer monsoon, westerlies, topography and regional vegetation factors might have contributed to this spatial complexity.
AbstractList Fossil pollen records from 20 sites with reliable chronologies and high-resolution data in the East Asian monsoon margin region were synthesized to document Holocene vegetation and climate change and to understand the large-scale controls. The vegetation experienced different changes over the Holocene in various sub-regions. (1) Near the boundary between modern forest and temperate steppe in Northeast China, forest showed clear expansion in the middle Holocene. (2) In central China near the boundary between steppe/forest and desert, vegetation showed various patterns at different sites. (3) Further west on the Tibetan Plateau near the boundary between highland meadow/steppe and semi-desert/desert, forest expanded at most sites during the early and middle Holocene. Our synthesis indicates that climate in the margin region was slightly moist in the early Holocene, wettest in the middle Holocene, and dry in the late Holocene, though there are regional differences as reflected by vegetation change. This general pattern is very different from either monsoon- or westerly-dominated regions. The maximum moisture occurred during the early Holocene in the monsoon region, while the arid central Asia dominated by the westerlies was driest in the early Holocene and wettest in the mid-Holocene. The interplay of the Asian summer monsoon, westerlies, topography and regional vegetation factors might have contributed to this spatial complexity.
Fossil pollen records from 20 sites with reliable chronologies and high-resolution data in the East Asian monsoon margin region were synthesized to document Holocene vegetation and climate change and to understand the large-scale controls. The vegetation experienced different changes over the Holocene in various sub-regions. (1) Near the boundary between modern forest and temperate steppe in Northeast China, forest showed clear expansion in the middle Holocene. (2) In central China near the boundary between steppe/forest and desert, vegetation showed various patterns at different sites. (3) Further west on the Tibetan Plateau near the boundary between highland meadow/steppe and semi-desert/desert, forest expanded at most sites during the early and middle Holocene. Our synthesis indicates that climate in the margin region was slightly moist in the early Holocene, wettest in the middle Holocene, and dry in the late Holocene, though there are regional differences as reflected by vegetation change. This general pattern is very different from either monsoon- or westerly-dominated regions. The maximum moisture occurred during the early Holocene in the monsoon region, while the arid central Asia dominated by the westerlies was driest in the early Holocene and wettest in the mid-Holocene. The interplay of the Asian summer monsoon, westerlies, topography and regional vegetation factors might have contributed to this spatial complexity. [PUBLICATION ABSTRACT]
Author Zhao, Yan
Yu, Zicheng
Author_xml – sequence: 1
  givenname: Yan
  surname: Zhao
  fullname: Zhao, Yan
  email: yanzhao@lzu.edu.cn
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– sequence: 2
  givenname: Zicheng
  surname: Yu
  fullname: Yu, Zicheng
  organization: Department of Earth and Environmental Sciences, Lehigh University, 1 West Packer Avenue, Bethlehem, PA 18015, USA
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Issue 1-2
Keywords East Asian monsoon
Climate change
Spatial complexity
Holocene
Vegetation response
Fossil pollen
Language English
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Snippet Fossil pollen records from 20 sites with reliable chronologies and high-resolution data in the East Asian monsoon margin region were synthesized to document...
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SubjectTerms China
climate
Climate change
East Asian monsoon
Forests
Fossil pollen
Fossils
Holocene
meadows
monsoon season
Pollen
Spatial complexity
steppes
summer
temperate forests
topography
Vegetation
Vegetation response
Title Vegetation response to Holocene climate change in East Asian monsoon-margin region
URI https://dx.doi.org/10.1016/j.earscirev.2012.03.001
https://www.proquest.com/docview/1018051321
https://www.proquest.com/docview/1028023588
https://www.proquest.com/docview/1694481978
Volume 113
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