Regional emissions of soil greenhouse gases across Tibetan alpine grasslands

•Large spatial variations in soil CO2 and N2O emissions and CH4 uptake on QTP.•Soil pH, moisture, C/N availability, and fungi jointly control CO2 emission.•High soil pH limits N2O emission and pmoA abundance dominates CH4 uptake.•Temperature sensitivity of each soil greenhouse gas (GHG) emission var...

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Published inGeoderma Vol. 443; p. 116843
Main Authors Wang, Peiyan, Wang, Jinsong, Elberling, Bo, Ambus, Per, Li, Yang, Pan, Junxiao, Zhang, Ruiyang, Guo, Hui, Niu, Shuli
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2024
Elsevier
Subjects
Alpine grasslands
carbon dioxide
China
climate
Climate feedback
Controlling factors
fungi
grasslands
greenhouse gases
greenhouses
highlands
methanotrophs
nutrient availability
Regional estimation
Soil greenhouse gas emissions
soil pH
soil water
Temperature sensitivity
China
Temperature sensitivity
Regional estimation
Alpine grasslands
Controlling factors
Climate feedback
Soil greenhouse gas emissions
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Abstract •Large spatial variations in soil CO2 and N2O emissions and CH4 uptake on QTP.•Soil pH, moisture, C/N availability, and fungi jointly control CO2 emission.•High soil pH limits N2O emission and pmoA abundance dominates CH4 uptake.•Temperature sensitivity of each soil greenhouse gas (GHG) emission varies across QTP.•Warming increases regional soil GHG balance of 17.6% (1.5℃), 24.8% (2℃), 38.9% (3℃) Soil greenhouse gas (GHG) emissions play an important role in regional climate feedback on the Qinghai-Tibetan Plateau (QTP). Previous studies have focused on soil GHGs based on observations within a limited space on the QTP, however, the regional GHG emissions remain unclear. Analyzing soil samples from 25 sites along a 2,700 km transect across QTP, we showed significantly higher soil CO2 and N2O emission rates in alpine meadows than other upland grassland types, but similar soil CH4 uptake rates across all grassland types. The spatial variations of total soil GHG balance were dominated by CO2 emission. We found that CO2 emission was primarily constrained by high soil pH, low soil moisture and nutrient availability, and fungal abundance, N2O emission was inhibited by high soil pH, while CH4 uptake was dominated by methanotrophic abundance. Furthermore, we estimated a current regional total soil GHG balance of 144.4 Tg CO2-eq yr−1 for surface soil across Tibetan alpine grasslands, which increased by 17.6%, 24.8%, and 38.9% under warming scenarios of 1.5℃, 2℃ and 3℃, respectively. Our results provide a baseline for regional soil GHG emissions responding to climate warming on the QTP.
AbstractList Soil greenhouse gas (GHG) emissions play an important role in regional climate feedback on the Qinghai-Tibetan Plateau (QTP). Previous studies have focused on soil GHGs based on observations within a limited space on the QTP, however, the regional GHG emissions remain unclear. Analyzing soil samples from 25 sites along a 2,700 km transect across QTP, we showed significantly higher soil CO₂ and N₂O emission rates in alpine meadows than other upland grassland types, but similar soil CH₄ uptake rates across all grassland types. The spatial variations of total soil GHG balance were dominated by CO₂ emission. We found that CO₂ emission was primarily constrained by high soil pH, low soil moisture and nutrient availability, and fungal abundance, N₂O emission was inhibited by high soil pH, while CH₄ uptake was dominated by methanotrophic abundance. Furthermore, we estimated a current regional total soil GHG balance of 144.4 Tg CO₂-eq yr⁻¹ for surface soil across Tibetan alpine grasslands, which increased by 17.6%, 24.8%, and 38.9% under warming scenarios of 1.5℃, 2℃ and 3℃, respectively. Our results provide a baseline for regional soil GHG emissions responding to climate warming on the QTP.
•Large spatial variations in soil CO2 and N2O emissions and CH4 uptake on QTP.•Soil pH, moisture, C/N availability, and fungi jointly control CO2 emission.•High soil pH limits N2O emission and pmoA abundance dominates CH4 uptake.•Temperature sensitivity of each soil greenhouse gas (GHG) emission varies across QTP.•Warming increases regional soil GHG balance of 17.6% (1.5℃), 24.8% (2℃), 38.9% (3℃) Soil greenhouse gas (GHG) emissions play an important role in regional climate feedback on the Qinghai-Tibetan Plateau (QTP). Previous studies have focused on soil GHGs based on observations within a limited space on the QTP, however, the regional GHG emissions remain unclear. Analyzing soil samples from 25 sites along a 2,700 km transect across QTP, we showed significantly higher soil CO2 and N2O emission rates in alpine meadows than other upland grassland types, but similar soil CH4 uptake rates across all grassland types. The spatial variations of total soil GHG balance were dominated by CO2 emission. We found that CO2 emission was primarily constrained by high soil pH, low soil moisture and nutrient availability, and fungal abundance, N2O emission was inhibited by high soil pH, while CH4 uptake was dominated by methanotrophic abundance. Furthermore, we estimated a current regional total soil GHG balance of 144.4 Tg CO2-eq yr−1 for surface soil across Tibetan alpine grasslands, which increased by 17.6%, 24.8%, and 38.9% under warming scenarios of 1.5℃, 2℃ and 3℃, respectively. Our results provide a baseline for regional soil GHG emissions responding to climate warming on the QTP.
Soil greenhouse gas (GHG) emissions play an important role in regional climate feedback on the Qinghai-Tibetan Plateau (QTP). Previous studies have focused on soil GHGs based on observations within a limited space on the QTP, however, the regional GHG emissions remain unclear. Analyzing soil samples from 25 sites along a 2,700 km transect across QTP, we showed significantly higher soil CO2 and N2O emission rates in alpine meadows than other upland grassland types, but similar soil CH4 uptake rates across all grassland types. The spatial variations of total soil GHG balance were dominated by CO2 emission. We found that CO2 emission was primarily constrained by high soil pH, low soil moisture and nutrient availability, and fungal abundance, N2O emission was inhibited by high soil pH, while CH4 uptake was dominated by methanotrophic abundance. Furthermore, we estimated a current regional total soil GHG balance of 144.4 Tg CO2-eq yr−1 for surface soil across Tibetan alpine grasslands, which increased by 17.6%, 24.8%, and 38.9% under warming scenarios of 1.5℃, 2℃ and 3℃, respectively. Our results provide a baseline for regional soil GHG emissions responding to climate warming on the QTP.
ArticleNumber 116843
Author Wang, Jinsong
Wang, Peiyan
Zhang, Ruiyang
Niu, Shuli
Guo, Hui
Elberling, Bo
Ambus, Per
Li, Yang
Pan, Junxiao
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  orcidid: 0000-0002-5815-0330
  surname: Wang
  fullname: Wang, Peiyan
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  givenname: Jinsong
  orcidid: 0000-0002-3425-7387
  surname: Wang
  fullname: Wang, Jinsong
  email: wangjinsong@igsnrr.ac.cn
  organization: Key Laboratory of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 100101 Beijing, China
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  givenname: Bo
  orcidid: 0000-0002-6023-885X
  surname: Elberling
  fullname: Elberling, Bo
  email: be@ign.ku.dk
  organization: Center for Permafrost (CENPERM), Department of Geosciences and Natural Resource Management, University of Copenhagen, Øster Voldgade 10, DK-1350 Copenhagen, Denmark
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  givenname: Yang
  orcidid: 0000-0002-5380-6425
  surname: Li
  fullname: Li, Yang
  organization: Key Laboratory of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 100101 Beijing, China
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  givenname: Junxiao
  orcidid: 0000-0003-0416-3336
  surname: Pan
  fullname: Pan, Junxiao
  organization: Key Laboratory of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 100101 Beijing, China
– sequence: 7
  givenname: Ruiyang
  surname: Zhang
  fullname: Zhang, Ruiyang
  organization: Key Laboratory of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 100101 Beijing, China
– sequence: 8
  givenname: Hui
  surname: Guo
  fullname: Guo, Hui
  email: hui.guo@njau.edu.cn
  organization: Department of Ecology, Nanjing Agricultural University, 210095 Nanjing, China
– sequence: 9
  givenname: Shuli
  orcidid: 0000-0002-2394-2864
  surname: Niu
  fullname: Niu, Shuli
  email: sniu@igsnrr.ac.cn
  organization: Key Laboratory of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, 100101 Beijing, China
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Keywords Temperature sensitivity
Regional estimation
Alpine grasslands
Controlling factors
Climate feedback
Soil greenhouse gas emissions
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Snippet •Large spatial variations in soil CO2 and N2O emissions and CH4 uptake on QTP.•Soil pH, moisture, C/N availability, and fungi jointly control CO2...
Soil greenhouse gas (GHG) emissions play an important role in regional climate feedback on the Qinghai-Tibetan Plateau (QTP). Previous studies have focused on...
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SubjectTerms Alpine grasslands
carbon dioxide
China
climate
Climate feedback
Controlling factors
fungi
grasslands
greenhouse gases
greenhouses
highlands
methanotrophs
nutrient availability
Regional estimation
Soil greenhouse gas emissions
soil pH
soil water
Temperature sensitivity
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Title Regional emissions of soil greenhouse gases across Tibetan alpine grasslands
URI https://dx.doi.org/10.1016/j.geoderma.2024.116843
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