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W2110180478 abstract "A one-dimensional higher-order closure turbulence model for the transport of mass, momentum, and energy, combined with a layered plant canopy description, has been linked to the Ball-Berry model for stomatal conductance and the Farquhar-von Caemmerer model for photosynthesis. This model is compared to a single-layer big-leaf model which uses the same plant physiology as the higher-order closure model. A multiplicative plant physiology model is also used for both the higher-order closure model and the big-leaf model. The results of the combination of these models are investigated, under simulated elevated CO2 concentrations. The turbulence model is derived from equating the fourth moments of the turbulent terms as a function of the second moments using quasi-Gaussianity, without using any gradient assumptions. This model has been verified against field data. The canopy model includes a radiation model to account for both shortwave and longwave radiative transfer in 10 layers of plant canopy. The plant leaves are separated into 100 classes, representing layers, leaf angles, and sunlit leaves or shaded leaves. The results show that the more accurate higher-order closure model, when coupled with advanced plant physiological models, predicts lower photosynthetic increases in response to CO2 concentration increases, than when the big-leaf model or the multiplicative models are used. This implies that General Circulation Model predictions for increased CO2 fertilization effects may be exaggerated." @default.
W2110180478 created "2016-06-24" @default.
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W2110180478 date "1997-01-01" @default.
W2110180478 modified "2023-09-26" @default.
W2110180478 title "The Modeling and Analysis of Crop Canopy Interactions with the Atmosphere under Global Climatic Change Conditions" @default.
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W2110180478 doi "https://doi.org/10.2480/agrmet.52.419" @default.
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