Prediction of Evapotranspiration and Yields of Maize: An Inter-comparison among 29 Maize Models and Future Plans - Session I: Improvement of crop models Access content directly
Conference Poster Year : 2020

Prediction of Evapotranspiration and Yields of Maize: An Inter-comparison among 29 Maize Models and Future Plans

Bruce Kimball
  • Function : Author
U.S. Arid Land Agricultural Research Center
Kenneth Boote
  • Function : Author
University of Florida [Gainesville]
Jerry Hatfield
  • Function : Author
Laj Ahuja
  • Function : Author
Claudio Stockle
  • Function : Author
Sotirios Archontoulis
  • Function : Author
Christian Baron
  • Function : Author
Bruno Basso
  • Function : Author
Patrick Bertuzzi
  • Function : Author
Julie Constantin
  • Function : Author
Delphine Deryng
Dumont Benjamin
  • Function : Author
Jean-Louis Durand
  • Function : Author
Frank Ewert
  • Function : Author
Thomas Gaiser
  • Function : Author
Gayler Sebastian
  • Function : Author
Munir Hoffman
  • Function : Author
Qianjing Jiang
  • Function : Author
Soo-Hyung Kim
  • Function : Author
Jon Lizaso
  • Function : Author
Sophie Moulin
  • Function : Author
Claas Nendel
Philip Parker
  • Function : Author
Taru Palosuo
  • Function : Author
Eckart Priesack
  • Function : Author
Zhiming Qi
  • Function : Author
Amit Srivastava
  • Function : Author
Tommaso Stella
Fulu Tao
  • Function : Author
Kelly Thorp
  • Function : Author
Dennis Timlin
  • Function : Author
Heidi Webber
Magali Willaume
CV
Karina Williams
  • Function : Author
Andrew Suyker
  • Function : Author
Steven Evett
  • Function : Author

Abstract

Crop yield can be affected by crop water use (evapotranspiration, ET) and vice versa, so when trying to simulate one or the other, it can be important to simulate both well. Method: To determine how well 29 maize growth models can simulate ET, an inter-comparison study was initiated under the umbrella of AgMIP (Agricultural Model Inter-Comparison and Improvement Project) using eddy cova-riance data from Ames, IA as the standard for comparison (Kimball et al., 2019).

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Modeling and Simulation
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https://inria.hal.science/hal-02950305

Submitted on : Sunday, September 27, 2020-5:56:34 PM

Last modification on : Wednesday, November 3, 2021-8:26:22 AM

Long-term archiving on: Thursday, December 3, 2020-6:43:34 PM

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hal-02950305 , version 1 (27-09-2020)

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  • HAL Id : hal-02950305 , version 1

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Bruce Kimball, Kenneth Boote, Jerry Hatfield, Laj Ahuja, Claudio Stockle, et al.. Prediction of Evapotranspiration and Yields of Maize: An Inter-comparison among 29 Maize Models and Future Plans. ICROPM2020: Second International Crop Modelling Symposium , Feb 2020, Montpellier, France. ⟨hal-02950305⟩

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