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Spatial pattern of GPP variations in terrestrial ecosystems and its drivers : Climatic factors, CO2 concentration and land-cover change, 1982-2015

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Title: Spatial pattern of GPP variations in terrestrial ecosystems and its drivers : Climatic factors, CO2 concentration and land-cover change, 1982-2015
Authors: Sun, Zhongyi Browse this author
Wang, Xiufeng Browse this author
Yamamoto, Haruhiko Browse this author
Tani, Hiroshi Browse this author
Zhong, Guosheng Browse this author
Yin, Shuai Browse this author
Guo, Enliang Browse this author
Keywords: Climate change
Atmospheric CO2 concentration
Land-cover change
Gross primary production
Terrestrial ecosystems
Issue Date: Jul-2018
Publisher: Elsevier
Journal Title: Ecological informatics
Volume: 46
Start Page: 156
End Page: 165
Publisher DOI: 10.1016/j.ecoinf.2018.06.006
Abstract: Quantitative estimation of spatial pattern of gross primary production (GPP) trends and its drivers plays a crucial role in global change research. This study applied C-Fix model to estimate the net effect of each factor on GPP trends of 1982-2015, used an unsupervised classifier to group similar GPP trend behaviors, and analyzed the responses of GPP to changes in climatic, atmospheric and environmental drivers. According to the features of monthly GPP trends and the patterns of growing season, we presented nine categories as aids in interpreting large-scale behavior. Land-cover change (LCC), rising CO2, temperature and water conditions changes have the positive overall effect on GPP over the entire world, contrary to radiation change effects. The global average contributions of LCC, CO2, temperature, radiation and water on GPP trend are 4.57%, 65.73%, 13.07%, -7.24 and 11.74%, respectively. LCC and climatic factors changes have had a greater impact on GPP in terms of a specific location or regional rather than globally, and the interactions between factors are positive on GPP. The effects of climatic factors trends on GPP in different locations can be opposite, in general: regionally, GPP changes at middle and high latitudes are likely dominated by rises in radiation and temperature; at lower latitudes, GPP changes are likely to be driven by shifts in water conditions; at high altitudes, GPP changes are probably caused by changes in temperature and water conditions. These results will increase the understanding of the variations of carbon flux under future CO2, LCC and climate conditions.
Rights: © 2018. This manuscript version is made available under the CC-BY-NC-ND 4.0 license
Type: article (author version)
Appears in Collections:農学院・農学研究院 (Graduate School of Agriculture / Faculty of Agriculture) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 孫 仲益 (Zhongyi Sun)

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