Uncertainty analysis of terrestrial net primary productivity and net biome productivity in China during 1901–2005
Type de ressource
Auteurs/contributeurs
- Shao, Junjiong (Auteur)
- Zhou, Xuhui (Auteur)
- Luo, Yiqi (Auteur)
- Zhang, Guodong (Auteur)
- Yan, Wei (Auteur)
- Li, Jiaxuan (Auteur)
- Li, Bo (Auteur)
- Dan, Li (Auteur)
- Fisher, Joshua B. (Auteur)
- Gao, Zhiqiang (Auteur)
- He, Yong (Auteur)
- Huntzinger, Deborah (Auteur)
- Jain, Atul K. (Auteur)
- Mao, Jiafu (Auteur)
- Meng, Jihua (Auteur)
- Michalak, Anna M. (Auteur)
- Parazoo, Nicholas C. (Auteur)
- Peng, Changhui (Auteur)
- Poulter, Benjamin (Auteur)
- Schwalm, Christopher R. (Auteur)
- Shi, Xiaoying (Auteur)
- Sun, Rui (Auteur)
- Tao, Fulu (Auteur)
- Tian, Hanqin (Auteur)
- Wei, Yaxing (Auteur)
- Zeng, Ning (Auteur)
- Zhu, Qiuan (Auteur)
- Zhu, Wenquan (Auteur)
Titre
Uncertainty analysis of terrestrial net primary productivity and net biome productivity in China during 1901–2005
Résumé
Abstract
Despite the importance of net primary productivity (NPP) and net biome productivity (NBP), estimates of NPP and NBP for China are highly uncertain. To investigate the main sources of uncertainty, we synthesized model estimates of NPP and NBP for China from published literature and the Multi‐scale Synthesis and Terrestrial Model Intercomparison Project (MsTMIP). The literature‐based results showed that total NPP and NBP in China were 3.35 ± 1.25 and 0.14 ± 0.094 Pg C yr
−1
, respectively. Classification and regression tree analysis based on literature data showed that model type was the primary source of the uncertainty, explaining 36% and 64% of the variance in NPP and NBP, respectively. Spatiotemporal scales, land cover conditions, inclusion of the N cycle, and effects of N addition also contributed to the overall uncertainty. Results based on the MsTMIP data suggested that model structures were overwhelmingly important (>90%) for the overall uncertainty compared to simulations with different combinations of time‐varying global change factors. The interannual pattern of NPP was similar among diverse studies and increased by 0.012 Pg C yr
−1
during 1981–2000. In addition, high uncertainty in China's NPP occurred in areas with high productivity, whereas NBP showed the opposite pattern. Our results suggest that to significantly reduce uncertainty in estimated NPP and NBP, model structures should be substantially tested on the basis of empirical results. To this end, coordinated distributed experiments with multiple global change factors might be a practical approach that can validate specific structures of different models.
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Key Points
Large uncertainty exists in estimates of terrestrial NPP and NBP in China
Methodological differences greatly contribute to the uncertainty in NPP and NBP
Uncertainty in the interannual pattern of NBP is greater than that of NPP
Publication
Journal of Geophysical Research: Biogeosciences
Volume
121
Numéro
5
Pages
1372-1393
Date
05/2016
Abrév. de revue
JGR Biogeosciences
Langue
en
ISSN
2169-8953, 2169-8961
Consulté le
18/11/2024 15:12
Catalogue de bibl.
DOI.org (Crossref)
Autorisations
Référence
Shao, J., Zhou, X., Luo, Y., Zhang, G., Yan, W., Li, J., Li, B., Dan, L., Fisher, J. B., Gao, Z., He, Y., Huntzinger, D., Jain, A. K., Mao, J., Meng, J., Michalak, A. M., Parazoo, N. C., Peng, C., Poulter, B., … Zhu, W. (2016). Uncertainty analysis of terrestrial net primary productivity and net biome productivity in China during 1901–2005. Journal of Geophysical Research: Biogeosciences, 121(5), 1372–1393. https://doi.org/10.1002/2015JG003062
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