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Bruce A. Kimball
Researcher at Agricultural Research Service
Publications - 243
Citations - 17104
Bruce A. Kimball is an academic researcher from Agricultural Research Service. The author has contributed to research in topics: Evapotranspiration & Stomatal conductance. The author has an hindex of 69, co-authored 240 publications receiving 15199 citations. Previous affiliations of Bruce A. Kimball include Monell Chemical Senses Center & Colorado State University.
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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
Climate Impacts on Agriculture: Implications for Crop Production
Jerry L. Hatfield,Kenneth J. Boote,Bruce A. Kimball,Lewis A. Ziska,Roberto C. Izaurralde,Donald R. Ort,Allison M. Thomson,David W. Wolfe +7 more
TL;DR: In this paper, the impact of temperature, CO 2, and ozone on agronomic crops and the implications for crop production are discussed and a review of the impact on agricultural crops is presented.
Journal ArticleDOI
Field-based phenomics for plant genetics research
Jeffrey W. White,Pedro Andrade-Sanchez,Michael A. Gore,Kevin F. Bronson,Terry A. Coffelt,Matthew M. Conley,Kenneth A. Feldmann,Andrew N. French,John T. Heun,Douglas J. Hunsaker,Matthew A. Jenks,Bruce A. Kimball,Robert L. Roth,Robert Strand,Kelly R. Thorp,Gerard W. Wall,Guangyao Wang +16 more
TL;DR: This work defines key criteria, experimental approaches, equipment and data analysis tools required for robust, high-throughput field-based phenotyping (FBP), and focuses on simultaneous proximal sensing for spectral reflectance, canopy temperature, and plant architecture.
Journal ArticleDOI
Methodologies for simulating impacts of climate change on crop production
TL;DR: In this paper, the authors reviewed 221 peer-reviewed papers that used crop simulation models to examine diverse aspects of how climate change might affect agricultural systems, focusing on wheat, maize, soybean and rice.
Journal ArticleDOI
C4 grasses prosper as carbon dioxide eliminates desiccation in warmed semi-arid grassland.
Jack A. Morgan,Daniel R. LeCain,Elise Pendall,Dana M. Blumenthal,Bruce A. Kimball,Yolima Carrillo,David G. Williams,Jana L. Heisler-White,Feike A. Dijkstra,Feike A. Dijkstra,Mark West +10 more
TL;DR: It is shown in a semi-arid grassland that elevated CO2 can completely reverse the desiccating effects of moderate warming, and the results indicate that in a warmer, CO2-enriched world, both SWC and productivity in semi-ARid grasslands may be higher than previously expected.