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Attribution of seasonal leaf area index trends in the northern latitudes with "optimally" integrated ecosystem models
Zhu, ZC (Zhu, Zaichun)1; Piao, SL (Piao, Shilong)1,2; Lian, X (Lian, Xu)1; Myneni, RB (Myneni, Ranga B.)3; Peng, SS (Peng, Shushi)1; Yang, H (Yang, Hui)1; Piao, SL
Source PublicationGLOBAL CHANGE BIOLOGY
2017
Volume23Issue:11Pages:4798-4813
DOI10.1111/gcb.13723
AbstractSignificant increases in remotely sensed vegetation indices in the northern latitudes since the 1980s have been detected and attributed at annual and growing season scales. However, we presently lack a systematic understanding of how vegetation responds to asymmetric seasonal environmental changes. In this study, we first investigated trends in the seasonal mean leaf area index (LAI) at northern latitudes (north of 30 degrees N) between 1982 and 2009 using three remotely sensed long-term LAI data sets. The most significant LAI increases occurred in summer (0.009 m(2) m(-2) year(-1), p<.01), followed by autumn (0.005 m(2) m(-2) year(-1), p<.01) and spring (0.003 m(2) m(-2) year(-1), p<.01). We then quantified the contribution of elevating atmospheric CO2 concentration (eCO(2)), climate change, nitrogen deposition, and land cover change to seasonal LAI increases based on factorial simulations from 10 state-of-the-art ecosystem models. Unlike previous studies that used multimodel ensemble mean (MME), we used the Bayesian model averaging (BMA) to optimize the integration of model ensemble. The optimally integrated ensemble LAI changes are significantly closer to the observed seasonal LAI changes than the traditional MME results. The BMA factorial simulations suggest that eCO(2) provides the greatest contribution to increasing LAI trends in all seasons (0.003-0.007 m(2) m(-2) year(-1)), and is the main factor driving asymmetric seasonal LAI trends. Climate change controls the spatial pattern of seasonal LAI trends and dominates the increase in seasonal LAI in the northern high latitudes. The effects of nitrogen deposition and land use change are relatively small in all seasons (around 0.0002 m(2) m(-2) year(-1) and 0.0001-0.001 m(2) m(-2) year(-1), respectively). Our analysis of the seasonal LAI responses to the interactions between seasonal changes in environmental factors offers a new perspective on the response of global vegetation to environmental changes.
Subject Area普通生物学
WOS IDWOS:000412322700030
Language英语
Indexed BySCI
KeywordVegetation Greening Trend Xilingol Steppe Region Net Primary Production Water-use Efficiency Land-surface Models Nitrogen Limitation Climate-change Primary Productivity Multimodel Ensemble Inner-mongolia
WOS Research AreaBiodiversity & Conservation; Environmental Sciences & Ecology
WOS SubjectBiodiversity Conservation; Ecology; Environmental Sciences ; Biodiversity & Conservation; Environmental Sciences & Ecology
Cooperation Status国际
SubtypeArticle
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Document Type期刊论文
Identifierhttp://ir.itpcas.ac.cn/handle/131C11/7958
Collection图书馆
Corresponding AuthorPiao, SL
Affiliation1.Peking Univ, Sinofrench Inst Earth Syst Sci, Coll Urban & Environm Sci, Beijing, Peoples R China.
2.Chinese Acad Sci, Inst Tibetan Plateau Res, CAS Ctr Excellence Tibetan Plateau Earth Sci, Key Lab Alpine Ecol & Biodivers, Beijing, Peoples R China.
3.Boston Univ, Dept Earth & Environm, Boston, MA 02215 USA.
Recommended Citation
GB/T 7714
Zhu, ZC ,Piao, SL ,Lian, X ,et al. Attribution of seasonal leaf area index trends in the northern latitudes with "optimally" integrated ecosystem models[J]. GLOBAL CHANGE BIOLOGY,2017,23(11):4798-4813.
APA Zhu, ZC .,Piao, SL .,Lian, X .,Myneni, RB .,Peng, SS .,...&Piao, SL.(2017).Attribution of seasonal leaf area index trends in the northern latitudes with "optimally" integrated ecosystem models.GLOBAL CHANGE BIOLOGY,23(11),4798-4813.
MLA Zhu, ZC ,et al."Attribution of seasonal leaf area index trends in the northern latitudes with "optimally" integrated ecosystem models".GLOBAL CHANGE BIOLOGY 23.11(2017):4798-4813.
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