Palynological evidence for the temporal stability of the plant community in the Yellow River Source Area over the last 7,400 years

Fang Tian; Wen Qin; Ran Zhang; Ulrike Herzschuh; Jian Ni; Chengjun Zhang; Steffen Mischke; Xianyong Cao

doi:10.1007/s00334-022-00870-5

Palynological evidence for the temporal stability of the plant community in the Yellow River Source Area over the last 7,400 years

Fang Tian
, Wen Qin
, Ran Zhang
, Ulrike Herzschuh
, Jian Ni
, Chengjun Zhang
, Steffen Mischke
, Xianyong Cao

University of Iceland

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

The terrestrial ecosystem in the Yellow River Source Area (YRSA) is sensitive to climate change and human impacts, although past vegetation change and the degree of human disturbance are still largely unknown. A 170-cm-long sediment core covering the last 7,400 years was collected from Lake Xingxinghai (XXH) in the YRSA. Pollen, together with a series of other environmental proxies (including grain size, total organic carbon (TOC) and carbonate content), were analysed to explore past vegetation and environmental changes for the YRSA. Dominant and common pollen components—Cyperaceae, Poaceae, Artemisia, Chenopodiaceae and Asteraceae—are stable throughout the last 7,400 years. Slight vegetation change is inferred from an increasing trend of Cyperaceae and decreasing trend of Poaceae, suggesting that alpine steppe was replaced by alpine meadow at ca. 3.5 ka cal bp. The vegetation transformation indicates a generally wetter climate during the middle and late Holocene, which is supported by increased amounts of TOC and Pediastrum (representing high water-level) and is consistent with previous past climate records from the north-eastern Tibetan Plateau. Our results find no evidence of human impact on the regional vegetation surrounding XXH, hence we conclude the vegetation change likely reflects the regional climate signal.

Original language	English
Pages (from-to)	549-558
Number of pages	10
Journal	Vegetation History and Archaeobotany
Volume	31
Issue number	6
DOIs	https://doi.org/10.1007/s00334-022-00870-5
Publication status	Published - 9 Feb 2022

Bibliographical note

Funding Information: The XXH sediment core was collected under Ulrike Herzschuh’s leadership and funding by Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research. This research was also supported by the Basic Science Center for Tibetan Plateau Earth System (BSCTPES, NSFC project No. 41988101), the National Natural Science Foundation of China (Grant No. 42071107 and 41877459). Cathy Jenks provided help with language editing. Funding Information: The XXH sediment core was collected under Ulrike Herzschuh’s leadership and funding by Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research. This research was also supported by the Basic Science Center for Tibetan Plateau Earth System (BSCTPES, NSFC project No. 41988101), the National Natural Science Foundation of China (Grant No. 42071107 and 41877459). Cathy Jenks provided help with language editing. Publisher Copyright: © 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.

Other keywords

Holocene
Lake Xingxinghai
Pollen
Regional climate
Tibetan Plateau
Vegetation change

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10.1007/s00334-022-00870-5

Cite this

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title = "Palynological evidence for the temporal stability of the plant community in the Yellow River Source Area over the last 7,400 years",

abstract = "The terrestrial ecosystem in the Yellow River Source Area (YRSA) is sensitive to climate change and human impacts, although past vegetation change and the degree of human disturbance are still largely unknown. A 170-cm-long sediment core covering the last 7,400 years was collected from Lake Xingxinghai (XXH) in the YRSA. Pollen, together with a series of other environmental proxies (including grain size, total organic carbon (TOC) and carbonate content), were analysed to explore past vegetation and environmental changes for the YRSA. Dominant and common pollen components—Cyperaceae, Poaceae, Artemisia, Chenopodiaceae and Asteraceae—are stable throughout the last 7,400 years. Slight vegetation change is inferred from an increasing trend of Cyperaceae and decreasing trend of Poaceae, suggesting that alpine steppe was replaced by alpine meadow at ca. 3.5 ka cal bp. The vegetation transformation indicates a generally wetter climate during the middle and late Holocene, which is supported by increased amounts of TOC and Pediastrum (representing high water-level) and is consistent with previous past climate records from the north-eastern Tibetan Plateau. Our results find no evidence of human impact on the regional vegetation surrounding XXH, hence we conclude the vegetation change likely reflects the regional climate signal.",

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author = "Fang Tian and Wen Qin and Ran Zhang and Ulrike Herzschuh and Jian Ni and Chengjun Zhang and Steffen Mischke and Xianyong Cao",

note = "Funding Information: The XXH sediment core was collected under Ulrike Herzschuh{\textquoteright}s leadership and funding by Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research. This research was also supported by the Basic Science Center for Tibetan Plateau Earth System (BSCTPES, NSFC project No. 41988101), the National Natural Science Foundation of China (Grant No. 42071107 and 41877459). Cathy Jenks provided help with language editing. Funding Information: The XXH sediment core was collected under Ulrike Herzschuh{\textquoteright}s leadership and funding by Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research. This research was also supported by the Basic Science Center for Tibetan Plateau Earth System (BSCTPES, NSFC project No. 41988101), the National Natural Science Foundation of China (Grant No. 42071107 and 41877459). Cathy Jenks provided help with language editing. Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.",

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AU - Ni, Jian

AU - Zhang, Chengjun

AU - Mischke, Steffen

AU - Cao, Xianyong

N1 - Funding Information: The XXH sediment core was collected under Ulrike Herzschuh’s leadership and funding by Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research. This research was also supported by the Basic Science Center for Tibetan Plateau Earth System (BSCTPES, NSFC project No. 41988101), the National Natural Science Foundation of China (Grant No. 42071107 and 41877459). Cathy Jenks provided help with language editing. Funding Information: The XXH sediment core was collected under Ulrike Herzschuh’s leadership and funding by Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research. This research was also supported by the Basic Science Center for Tibetan Plateau Earth System (BSCTPES, NSFC project No. 41988101), the National Natural Science Foundation of China (Grant No. 42071107 and 41877459). Cathy Jenks provided help with language editing. Publisher Copyright: © 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.

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N2 - The terrestrial ecosystem in the Yellow River Source Area (YRSA) is sensitive to climate change and human impacts, although past vegetation change and the degree of human disturbance are still largely unknown. A 170-cm-long sediment core covering the last 7,400 years was collected from Lake Xingxinghai (XXH) in the YRSA. Pollen, together with a series of other environmental proxies (including grain size, total organic carbon (TOC) and carbonate content), were analysed to explore past vegetation and environmental changes for the YRSA. Dominant and common pollen components—Cyperaceae, Poaceae, Artemisia, Chenopodiaceae and Asteraceae—are stable throughout the last 7,400 years. Slight vegetation change is inferred from an increasing trend of Cyperaceae and decreasing trend of Poaceae, suggesting that alpine steppe was replaced by alpine meadow at ca. 3.5 ka cal bp. The vegetation transformation indicates a generally wetter climate during the middle and late Holocene, which is supported by increased amounts of TOC and Pediastrum (representing high water-level) and is consistent with previous past climate records from the north-eastern Tibetan Plateau. Our results find no evidence of human impact on the regional vegetation surrounding XXH, hence we conclude the vegetation change likely reflects the regional climate signal.

AB - The terrestrial ecosystem in the Yellow River Source Area (YRSA) is sensitive to climate change and human impacts, although past vegetation change and the degree of human disturbance are still largely unknown. A 170-cm-long sediment core covering the last 7,400 years was collected from Lake Xingxinghai (XXH) in the YRSA. Pollen, together with a series of other environmental proxies (including grain size, total organic carbon (TOC) and carbonate content), were analysed to explore past vegetation and environmental changes for the YRSA. Dominant and common pollen components—Cyperaceae, Poaceae, Artemisia, Chenopodiaceae and Asteraceae—are stable throughout the last 7,400 years. Slight vegetation change is inferred from an increasing trend of Cyperaceae and decreasing trend of Poaceae, suggesting that alpine steppe was replaced by alpine meadow at ca. 3.5 ka cal bp. The vegetation transformation indicates a generally wetter climate during the middle and late Holocene, which is supported by increased amounts of TOC and Pediastrum (representing high water-level) and is consistent with previous past climate records from the north-eastern Tibetan Plateau. Our results find no evidence of human impact on the regional vegetation surrounding XXH, hence we conclude the vegetation change likely reflects the regional climate signal.

KW - Holocene

KW - Lake Xingxinghai

KW - Pollen

KW - Regional climate

KW - Tibetan Plateau

KW - Vegetation change

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DO - 10.1007/s00334-022-00870-5

M3 - Article

SN - 0939-6314

VL - 31

SP - 549

EP - 558

JO - Vegetation History and Archaeobotany

JF - Vegetation History and Archaeobotany

IS - 6

ER -

Palynological evidence for the temporal stability of the plant community in the Yellow River Source Area over the last 7,400 years

Abstract

Bibliographical note

Other keywords

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Cite this