Modeling Interactions among Carbon Dioxide, Nitrogen, and Climate on Energy Exchange of Wheat in a Free Air Carbon Dioxide Experiment

Changes in mass and energy exchange by crops under rising atmospheric CO2 concentration (Ca) may be affected by N and weather; Ca interacts with weather on mass and energy exchange through limitations on latent heat flux imposed by stomatal conductance, which is affected by Ca, and aerodynamic conductance, which is affected by weather. We examined the bases for these interactions with the ecosystem model ecosys Simulation results were tested with energy flux data from a Free Air CO2 Enrichment (FACE) experiment in which wheat (Triticum aestivum L.) was grown under 548 vs. 363 μmol mol−1 Ca and fertilized with 7 vs. 35 g N m−2. Both model and experimental results indicated that raising Ca from 363 to 548 μmol mol−1 reduced midday latent heat fluxes by ca. 50 W m−2 for wheat fertilized with 35 g N m−2, and by ca. 100 W m−2 for wheat fertilized with only 7 g N m−2 when N deficits developed later in the growing season. These reductions were smaller under low wind speeds (