Uncertainty of Wheat Water Use: Simulated Patterns and Sensitivity to Temperature and CO2 Davide Cammarano , Reimund P. Rötter , Senthold Asseng , Frank Ewert , Daniel Wallach , Pierre Martre , Jerry L. Hatfield , James W. Jones , Cynthia Rosenzweig , Alex C. Ruane , Kenneth J. Boote , Peter J. Thorburn , Kurt Christian Kersebaum , Pramod K. Aggarwal , Carlos Angulo , Bruno Basso , Patrick Bertuzzi , Christian Biernath , Nadine Brisson , Andrew J. Challinor , Jordi Doltra , Sebastian Gayler , Richie Goldberg , Lee Heng , Josh Hooker , Leslie A. Hunt , Joachim Ingwersen , Roberto C. Izaurralde , Christoph Müller , Soora Naresh Kumar , Claas Nendel , Garry J. O’Leary , Jørgen E. Olesen , Tom M. Osborne , Taru Palosuo , Eckart Priesack , Dominique Ripoche , Mikhail A. Semenov , Iurii Shcherbak , Pasquale Steduto , Claudio O. Stöckle , Pierre Stratonovitch , Thilo Streck , Iwan Supit , Fulu Tao , Maria Travasso , Katharina Waha , Jeffrey W. White , J. Wolf Field Crops Research(2016)
摘要
•16 wheat models were evaluated for their ability to estimate crop water use and its components.•The largest uncertainty source in simulated crop water use was due to calculation of crop transpiration.•Crop transpiration simulation needs improvement before models are applicable to guide crop water management in future climates.
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Multi-model simulation, Transpiration efficiency, Water use, Uncertainty, Sensitivity
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