Precipitation consistently promotes, but temperature oppositely drives carbon fluxes in temperate and alpine grasslands in China

Temperate grassland (TG) and alpine grassland (AG) are two distinct grassland types with different climatic backgrounds and adaptation patterns. Little is known about the universal and divergent responses of TGs and AGs to climate change, particularly with regard to the carbon (C) fluxes. The large-...

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Published inAgricultural and forest meteorology Vol. 344; p. 109811
Main Authors Liu, Zhaogang, Chen, Zhi, Yang, Meng, Hao, Tianxiang, Yu, Guirui, Zhu, Xianjin, Zhang, Weikang, Ma, Lexin, Dou, Xiaojun, Lin, Yong, Luo, Wenxing, Han, Lang, Sun, Mingyu, Chen, Shiping, Dong, Gang, Gao, Yanhong, Hao, Yanbin, Jiang, Shicheng, Li, Yingnian, Li, Yuzhe, Liu, Shaomin, Shi, Peili, Tan, Junlei, Tang, Yakun, Xin, Xiaoping, Zhang, Fawei, Zhang, Yangjian, Zhao, Liang, Zhou, Li, Zhu, Zhilin
Format Journal Article
LanguageEnglish
Published 15.01.2024
Subjects
alpine grasslands
altitude
atmospheric precipitation
carbon
China
climate change
eddy covariance
forests
latitude
leaf area
loess
longitude
meteorology
net ecosystem production
soil temperature
soil water content
China
Online AccessGet full text
ISSN0168-1923
DOI10.1016/j.agrformet.2023.109811

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Abstract Temperate grassland (TG) and alpine grassland (AG) are two distinct grassland types with different climatic backgrounds and adaptation patterns. Little is known about the universal and divergent responses of TGs and AGs to climate change, particularly with regard to the carbon (C) fluxes. The large-scale responses of the C fluxes in different grasslands to climate change remain unclear, with only a few comparative studies of distinct responses of the C fluxes in TGs and AGs to climate change hinders our understanding of this subject. In this study, we conducted a large-scale transect study across the Mongolian, Loess, and Tibetan Plateaus in China to reveal the similarities and differences in the responses of the C fluxes in TGs and AGs to climate change. We used C flux data measured by eddy covariance from ChinaFLUX and published literature, covering the period from 2003 to 2020. The results showed that TGs and AGs in China were weak C sinks. Net ecosystem productivity in TGs and AGs exhibited opposite trends with increasing latitude, longitude, and altitude. Elevated water (mean annual precipitation and soil water content) consistently increased the C fluxes. Conversely, increased temperature (mean annual temperature and mean annual soil temperature) reduced the C fluxes in TGs and increased the C fluxes in AGs. The water factors promoted the C fluxes in both TGs and AGs by improving the leaf area indices. Conversely, the temperature factors had a strong direct, negative effect on the C fluxes in TGs and a weak direct, positive effect on the C fluxes in AGs, emphasizing the divergent patterns of the C fluxes in TGs and AGs and their responses to climate change. Overall, this study enhances our knowledge on C sinks and various grassland hydrothermal sensitivities.
AbstractList Temperate grassland (TG) and alpine grassland (AG) are two distinct grassland types with different climatic backgrounds and adaptation patterns. Little is known about the universal and divergent responses of TGs and AGs to climate change, particularly with regard to the carbon (C) fluxes. The large-scale responses of the C fluxes in different grasslands to climate change remain unclear, with only a few comparative studies of distinct responses of the C fluxes in TGs and AGs to climate change hinders our understanding of this subject. In this study, we conducted a large-scale transect study across the Mongolian, Loess, and Tibetan Plateaus in China to reveal the similarities and differences in the responses of the C fluxes in TGs and AGs to climate change. We used C flux data measured by eddy covariance from ChinaFLUX and published literature, covering the period from 2003 to 2020. The results showed that TGs and AGs in China were weak C sinks. Net ecosystem productivity in TGs and AGs exhibited opposite trends with increasing latitude, longitude, and altitude. Elevated water (mean annual precipitation and soil water content) consistently increased the C fluxes. Conversely, increased temperature (mean annual temperature and mean annual soil temperature) reduced the C fluxes in TGs and increased the C fluxes in AGs. The water factors promoted the C fluxes in both TGs and AGs by improving the leaf area indices. Conversely, the temperature factors had a strong direct, negative effect on the C fluxes in TGs and a weak direct, positive effect on the C fluxes in AGs, emphasizing the divergent patterns of the C fluxes in TGs and AGs and their responses to climate change. Overall, this study enhances our knowledge on C sinks and various grassland hydrothermal sensitivities.
ArticleNumber 109811
Author Dong, Gang
Gao, Yanhong
Liu, Zhaogang
Tang, Yakun
Zhang, Weikang
Zhang, Fawei
Lin, Yong
Sun, Mingyu
Hao, Tianxiang
Zhu, Zhilin
Han, Lang
Zhang, Yangjian
Ma, Lexin
Liu, Shaomin
Chen, Zhi
Yang, Meng
Shi, Peili
Hao, Yanbin
Li, Yingnian
Zhou, Li
Chen, Shiping
Zhu, Xianjin
Xin, Xiaoping
Dou, Xiaojun
Tan, Junlei
Yu, Guirui
Luo, Wenxing
Zhao, Liang
Li, Yuzhe
Jiang, Shicheng
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Snippet Temperate grassland (TG) and alpine grassland (AG) are two distinct grassland types with different climatic backgrounds and adaptation patterns. Little is...
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SubjectTerms alpine grasslands
altitude
atmospheric precipitation
carbon
China
climate change
eddy covariance
forests
latitude
leaf area
loess
longitude
meteorology
net ecosystem production
soil temperature
soil water content
Title Precipitation consistently promotes, but temperature oppositely drives carbon fluxes in temperate and alpine grasslands in China
URI https://www.proquest.com/docview/3154176567
Volume 344
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