Decadal trends in the seasonal-cycle amplitude of terrestrial CO2 exchange resulting from the ensemble of terrestrial biosphere models. Issue 1 (1st December 2016)
- Record Type:
- Journal Article
- Title:
- Decadal trends in the seasonal-cycle amplitude of terrestrial CO2 exchange resulting from the ensemble of terrestrial biosphere models. Issue 1 (1st December 2016)
- Main Title:
- Decadal trends in the seasonal-cycle amplitude of terrestrial CO2 exchange resulting from the ensemble of terrestrial biosphere models
- Authors:
- Ito, Akihiko
Inatomi, Motoko
Huntzinger, Deborah N.
Schwalm, Christopher
Michalak, Anna M.
Cook, Robert
King, Anthony W.
Mao, Jiafu
Wei, Yaxing
Post, W. Mac
Wang, Weile
Arain, M. Altaf
Huang, Suo
Hayes, Daniel J.
Ricciuto, Daniel M.
Shi, Xiaoying
Huang, Maoyi
Lei, Huimin
Tian, Hanqin
Lu, Chaoqun
Yang, Jia
Tao, Bo
Jain, Atul
Poulter, Benjamin
Peng, Shushi
Ciais, Philippe
Fisher, Joshua B.
Parazoo, Nicholas
Schaefer, Kevin
Peng, Changhui
Zeng, Ning
Zhao, Fang
… (more) - Abstract:
- Abstract : The seasonal-cycle amplitude (SCA) of the atmosphere–ecosystem carbon dioxide (CO2 ) exchange rate is a useful metric of the responsiveness of the terrestrial biosphere to environmental variations. It is unclear, however, what underlying mechanisms are responsible for the observed increasing trend of SCA in atmospheric CO2 concentration. Using output data from the Multi-scale Terrestrial Model Intercomparison Project (MsTMIP), we investigated how well the SCA of atmosphere–ecosystem CO2 exchange was simulated with 15 contemporary terrestrial ecosystem models during the period 1901–2010. Also, we made attempt to evaluate the contributions of potential mechanisms such as atmospheric CO2, climate, land-use, and nitrogen deposition, through factorial experiments using different combinations of forcing data. Under contemporary conditions, the simulated global-scale SCA of the cumulative net ecosystem carbon flux of most models was comparable in magnitude with the SCA of atmospheric CO2 concentrations. Results from factorial simulation experiments showed that elevated atmospheric CO2 exerted a strong influence on the seasonality amplification. When the model considered not only climate change but also land-use and atmospheric CO2 changes, the majority of the models showed amplification trends of the SCAs of photosynthesis, respiration, and net ecosystem production (+0.19 % to +0.50 % yr −1 ). In the case of land-use change, it was difficult to separate the contributionAbstract : The seasonal-cycle amplitude (SCA) of the atmosphere–ecosystem carbon dioxide (CO2 ) exchange rate is a useful metric of the responsiveness of the terrestrial biosphere to environmental variations. It is unclear, however, what underlying mechanisms are responsible for the observed increasing trend of SCA in atmospheric CO2 concentration. Using output data from the Multi-scale Terrestrial Model Intercomparison Project (MsTMIP), we investigated how well the SCA of atmosphere–ecosystem CO2 exchange was simulated with 15 contemporary terrestrial ecosystem models during the period 1901–2010. Also, we made attempt to evaluate the contributions of potential mechanisms such as atmospheric CO2, climate, land-use, and nitrogen deposition, through factorial experiments using different combinations of forcing data. Under contemporary conditions, the simulated global-scale SCA of the cumulative net ecosystem carbon flux of most models was comparable in magnitude with the SCA of atmospheric CO2 concentrations. Results from factorial simulation experiments showed that elevated atmospheric CO2 exerted a strong influence on the seasonality amplification. When the model considered not only climate change but also land-use and atmospheric CO2 changes, the majority of the models showed amplification trends of the SCAs of photosynthesis, respiration, and net ecosystem production (+0.19 % to +0.50 % yr −1 ). In the case of land-use change, it was difficult to separate the contribution of agricultural management to SCA because of inadequacies in both the data and models. The simulated amplification of SCA was approximately consistent with the observational evidence of the SCA in atmospheric CO2 concentrations. Large inter-model differences remained, however, in the simulated global tendencies and spatial patterns of CO2 exchanges. Further studies are required to identify a consistent explanation for the simulated and observed amplification trends, including their underlying mechanisms. Nevertheless, this study implied that monitoring of ecosystem seasonality would provide useful insights concerning ecosystem dynamics. … (more)
- Is Part Of:
- Tellus. Volume 68:Issue 1(2016)
- Journal:
- Tellus
- Issue:
- Volume 68:Issue 1(2016)
- Issue Display:
- Volume 68, Issue 1 (2016)
- Year:
- 2016
- Volume:
- 68
- Issue:
- 1
- Issue Sort Value:
- 2016-0068-0001-0000
- Page Start:
- Page End:
- Publication Date:
- 2016-12-01
- Subjects:
- atmospheric carbon dioxide -- carbon cycle -- climate change -- land-use change -- seasonal cycle -- terrestrial ecosystem
Atmospheric chemistry -- Periodicals
Atmospheric physics -- Periodicals
Meteorology -- Periodicals
Air -- Pollution -- Meteorological aspects -- Periodicals
Chimie de l'atmosphère -- Périodiques
Météorologie physique -- Périodiques
Météorologie -- Périodiques
Air -- Pollution -- Meteorological aspects
Atmospheric chemistry
Atmospheric physics
Meteorology
Meteorologie
Chimie de l'atmosphère
Météorologie physique
Météorologie
Meteorology
Electronic journals
Computer network resources
Periodicals
Ressource Internet (Descripteur de forme)
Périodique électronique (Descripteur de forme)
551.505 - Journal URLs:
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http://www.ingenta.com/journals/browse/mksg/teb ↗
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http://firstsearch.oclc.org/journal=0280-6509;screen=info;ECOIP ↗
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http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1600-0889 ↗
https://www.tandfonline.com/toc/zelb20/current ↗
http://onlinelibrary.wiley.com/ ↗ - DOI:
- 10.3402/tellusb.v68.28968 ↗
- Languages:
- English
- ISSNs:
- 0280-6509
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- Legaldeposit
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