Physical robustness of canopy temperature models for crop heat stress simulation across environments and production conditions - INRAE - Institut national de recherche pour l’agriculture, l’alimentation et l’environnement
Article Dans Une Revue Field Crops Research Année : 2018

Physical robustness of canopy temperature models for crop heat stress simulation across environments and production conditions

Heidi Webber
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Marco Bindi
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Roberto Ferrise
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Résumé

Despite widespread application in studying climate change impacts, most crop models ignore complex interactions among air temperature, crop and soil water status, CO2 concentration and atmospheric conditions that influence crop canopy temperature. The current study extended previous studies by evaluating Tc simulations from nine crop models at six locations across environmental and production conditions. Each crop model implemented one of an empirical (EMP), an energy balance assuming neutral stability (EBN) or an energy balance correcting for atmospheric stability conditions (EBSC) approach to simulate Tc. Model performance in predicting Tc was evaluated for two experiments in continental North America with various water, nitrogen and CO2 treatments. An empirical model fit to one dataset had the best performance, followed by the EBSC models. Stability conditions explained much of the differences between modeling approaches. More accurate simulation of heat stress will likely require use of energy balance approaches that consider atmospheric stability conditions.

Dates et versions

hal-02621645 , version 1 (26-05-2020)

Licence

Copyright (Tous droits réservés)

Identifiants

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Heidi Webber, Jeffrey W. White, Bruce A. Kimball, Frank Ewert, Senthold Asseng, et al.. Physical robustness of canopy temperature models for crop heat stress simulation across environments and production conditions. Field Crops Research, 2018, 216, pp.75-88. ⟨10.1016/j.fcr.2017.11.005⟩. ⟨hal-02621645⟩
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