S
Sebastian Gayler
Researcher at University of Hohenheim
Publications - 87
Citations - 6238
Sebastian Gayler is an academic researcher from University of Hohenheim. The author has contributed to research in topics: Climate change & Soil water. The author has an hindex of 30, co-authored 72 publications receiving 4732 citations. Previous affiliations of Sebastian Gayler include Helmholtz Zentrum München & University of Tübingen.
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Journal ArticleDOI
Rising Temperatures Reduce Global Wheat Production
Senthold Asseng,Frank Ewert,Pierre Martre,Pierre Martre,Reimund P. Rötter,David B. Lobell,Davide Cammarano,Davide Cammarano,Bruce A. Kimball,Michael J. Ottman,Gerard W. Wall,Jeffrey W. White,Matthew P. Reynolds,Phillip D. Alderman,P. V. V. Prasad,Pramod K. Aggarwal,Jakarat Anothai,Jakarat Anothai,Bruno Basso,Christian Biernath,Andrew J. Challinor,Andrew J. Challinor,G. De Sanctis,G. De Sanctis,Jordi Doltra,Elias Fereres,Margarita Garcia-Vila,Sebastian Gayler,Gerrit Hoogenboom,L. A. Hunt,Roberto C. Izaurralde,Roberto C. Izaurralde,Mohamed Jabloun,Curtis D. Jones,Kurt Christian Kersebaum,Ann-Kristin Koehler,Christoph Müller,S. Naresh Kumar,Claas Nendel,Garry O'Leary,Jørgen E. Olesen,Taru Palosuo,Eckart Priesack,Ehsan Eyshi Rezaei,Alex C. Ruane,Mikhail A. Semenov,Iurii Shcherbak,Claudio O. Stöckle,Pierre Stratonovitch,Thilo Streck,Iwan Supit,Fulu Tao,Peter J. Thorburn,Katharina Waha,Enli Wang,Daniel Wallach,Joost Wolf,Zhigan Zhao,Zhigan Zhao,Yan Zhu +59 more
TL;DR: The authors systematically tested 30 different wheat crop models of the Agricultural Model Intercomparison and Improvement Project against field experiments in which growing season mean temperatures ranged from 15 degrees C to 32 degrees C, including experiments with artificial heating.
Journal ArticleDOI
Uncertainty in Simulating Wheat Yields Under Climate Change
Senthold Asseng,Frank Ewert,Cynthia Rosenzweig,James W. Jones,Jerry L. Hatfield,Alex C. Ruane,Kenneth J. Boote,Peter J. Thorburn,Reimund P. Rötter,Davide Cammarano,Nadine Brisson,Nadine Brisson,Bruno Basso,Pierre Martre,Pierre Martre,Pramod K. Aggarwal,Carlos Angulo,Patrick Bertuzzi,Christian Biernath,Andrew J. Challinor,Andrew J. Challinor,Jordi Doltra,Sebastian Gayler,R. Goldberg,Robert F. Grant,L. Heng,J. Hooker,L. A. Hunt,Joachim Ingwersen,Roberto C. Izaurralde,Kurt Christian Kersebaum,Christoph Müller,S. Naresh Kumar,Claas Nendel,Garry 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 I. Travasso,Katharina Waha,Daniel Wallach,Jeffrey W. White,James Williams,Joost Wolf +53 more
TL;DR: In this article, the authors present the largest standardized model intercomparison for climate change impacts so far, finding that individual crop models are able to simulate measured wheat grain yields accurately under a range of environments, particularly if the input information is sufficient.
Journal ArticleDOI
How Do Various Maize Crop Models Vary in Their Responses to Climate Change Factors
Simona Bassu,Nadine Brisson,Jean-Louis Durand,Kenneth J. Boote,Jon I. Lizaso,James W. Jones,Cynthia Rosenzweig,Alex C. Ruane,Myriam Adam,Christian Baron,Bruno Basso,Bruno Basso,Christian Biernath,H.L. Boogaard,Sjaak Conijn,Marc Corbeels,Delphine Deryng,Giacomo De Sanctis,Sebastian Gayler,Patricio Grassini,Jerry L. Hatfield,Steven Hoek,Cesar Izaurralde,R.E.E. Jongschaap,Armen R. Kemanian,K. Christian Kersebaum,Soo-Hyung Kim,Naresh S. Kumar,David Makowski,Christoph Müller,Claas Nendel,Eckart Priesack,Maria Virginia Pravia,Federico Sau,Iurii Shcherbak,Iurii Shcherbak,Fulu Tao,Edmar Teixeira,Dennis Timlin,Katharina Waha +39 more
TL;DR: The largest maize crop model intercomparison to date, including 23 different models, is presented, suggesting that using an ensemble of models has merit and there was a large uncertainty in the yield response to [CO2 ] among models.
Journal ArticleDOI
Multimodel ensembles of wheat growth: many models are better than one
Pierre Martre,Pierre Martre,Daniel Wallach,Senthold Asseng,Frank Ewert,James W. Jones,Reimund P. Rötter,Kenneth J. Boote,Alex C. Ruane,Peter J. Thorburn,Davide Cammarano,Jerry L. Hatfield,Cynthia Rosenzweig,Pramod K. Aggarwal,Carlos Angulo,Bruno Basso,Patrick Bertuzzi,Christian Biernath,Nadine Brisson,Nadine Brisson,Andrew J. Challinor,Andrew J. Challinor,Jordi Doltra,Sebastian Gayler,R. Goldberg,Robert F. Grant,Lee Heng,J. Hooker,L. A. Hunt,Joachim Ingwersen,Roberto C. Izaurralde,Kurt Christian Kersebaum,Christoph Müller,Soora Naresh Kumar,Claas Nendel,Garry 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 I. Travasso,Katharina Waha,Jeffrey W. White,Joost Wolf +52 more
TL;DR: It is concluded that multimodel ensembles can be used to create new estimators with improved accuracy and consistency in simulating growth dynamics, and argued that these results are applicable to other crop species, and hypothesize that they apply more generally to ecological system models.
Journal ArticleDOI
Similar estimates of temperature impacts on global wheat yield by three independent methods
Bing Liu,Bing Liu,Senthold Asseng,Christoph Müller,Frank Ewert,Joshua Elliott,Joshua Elliott,David B. Lobell,Pierre Martre,Alex C. Ruane,Alex C. Ruane,Daniel Wallach,James W. Jones,Cynthia Rosenzweig,Cynthia Rosenzweig,Pramod K. Aggarwal,Phillip D. Alderman,Jakarat Anothai,Bruno Basso,Christian Biernath,Davide Cammarano,Andrew J. Challinor,Delphine Deryng,Delphine Deryng,Giacomo De Sanctis,Jordi Doltra,Elias Fereres,Christian Folberth,Christian Folberth,Margarita Garcia-Vila,Sebastian Gayler,Gerrit Hoogenboom,Gerrit Hoogenboom,L. A. Hunt,Roberto C. Izaurralde,Roberto C. Izaurralde,Mohamed Jabloun,Curtis D. Jones,Kurt Christian Kersebaum,Bruce A. Kimball,Ann-Kristin Koehler,Soora Naresh Kumar,Claas Nendel,Garry O'Leary,Jørgen E. Olesen,Michael J. Ottman,Taru Palosuo,P. V. Vara Prasad,Eckart Priesack,Thomas A. M. Pugh,Thomas A. M. Pugh,Matthew P. Reynolds,Ehsan Eyshi Rezaei,Reimund P. Rötter,Erwin Schmid,Mikhail A. Semenov,Iurii Shcherbak,Elke Stehfest,Claudio O. Stöckle,Pierre Stratonovitch,Thilo Streck,Iwan Supit,Fulu Tao,Peter J. Thorburn,Katharina Waha,Katharina Waha,Gerard W. Wall,Enli Wang,Jeffrey W. White,Joost Wolf,Zhigan Zhao,Zhigan Zhao,Yan Zhu +72 more
TL;DR: This paper showed that grid-based and point-based simulations and statistical regressions, without deliberate adaptation or CO 2 fertilization effects, produce similar estimates of temperature impact on wheat yields at global and national scales.