Temperature increase reduces global yields of major crops in four independent estimates

Chuang Zhao; Bing Liu; Shilong Piao; Xuhui Wang; David B. Lobell; Yao Huang; Mengtian Huang; Yitong Yao; Simona Bassu; Philippe Ciais; J. L. Durand; Joshua Elliott; Frank Ewert; Ivan A. Janssens; Tao Li; Erda Lin; Qiang Liu; Pierre Martre; Christoph Müller; Shushi Peng; Josep Peñuelas; Alex C. Ruane; Daniel Wallach; Tao Wang; Donghai Wu; Zhuo Liu; Yan Zhu; Zaichun Zhu; Senthold Asseng

doi:10.1073/pnas.1701762114

Temperature increase reduces global yields of major crops in four independent estimates

Chuang Zhao(Peking University), Bing Liu(Nanjing Agricultural University), Shilong Piao(Chinese Academy of Sciences), Xuhui Wang(Peking University), David B. Lobell(Stanford University), Yao Huang(Chinese Academy of Sciences), Mengtian Huang(Peking University), Yitong Yao(Peking University), Simona Bassu(University of Sassari), Philippe Ciais(Centre National de la Recherche Scientifique), J. L. Durand(Unité de Recherche Pluridisciplinaire Prairies et Plantes Fourragères), Joshua Elliott(University of Chicago), Frank Ewert(University of Bonn), Ivan A. Janssens(University of Antwerp), Tao Li(International Rice Research Institute), Erda Lin(Chinese Academy of Agricultural Sciences), Qiang Liu(Peking University), Pierre Martre(Institut Agro Montpellier), Christoph Müller(Potsdam Institute for Climate Impact Research), Shushi Peng(Peking University), Josep Peñuelas(Consejo Superior de Investigaciones Científicas), Alex C. Ruane(Goddard Institute for Space Studies), Daniel Wallach, Tao Wang(Chinese Academy of Sciences), Donghai Wu(Peking University), Zhuo Liu(Peking University), Yan Zhu(Nanjing Agricultural University), Zaichun Zhu(Peking University), Senthold Asseng(University of Florida)

Proceedings of the National Academy of Sciences

August 15, 2017

10.1073/pnas.1701762114

Cited by 3,099Open Access

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Abstract

Significance Agricultural production is vulnerable to climate change. Understanding climate change, especially the temperature impacts, is critical if policymakers, agriculturalists, and crop breeders are to ensure global food security. Our study, by compiling extensive published results from four analytical methods, shows that independent methods consistently estimated negative temperature impacts on yields of four major crops at the global scale, generally underpinned by similar impacts at country and site scales. Multimethod analyses improved the confidence in assessments of future climate impacts on global major crops, with important implications for developing crop- and region-specific adaptation strategies to ensure future food supply of an increasing world population.

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