5a.5
A new gas/Carbon Assimilation Surface Evapotranpiration Model (GEM) for Mesoscale Applications
Devdutta S. Niyogi, North Carolina State University, Raleigh, NC; and S. Raman and K. Alapaty
A new gas - exchange / assimilation surface evapotranpiration model, called GEM, is developed for mesoscale applications. GEM incorporates carbon dioxide assimilation (photosynthesis)and soil moisture control of evapotranspiration. The parameterization is based on physiologically intensive representation of stomatal response coupled with prognostic equations for soil moisture and subsurface temperature through surface energy balance. This parameterization is dynmically coupled with a columnar version of a mesoscale model and tested with observations made during FIFE. The surface energy balances from more traditional evapotranspirative approaches (Jarvis-type) are also computed for the coupled simulations. Results indicate a good performance of the new parameterization with default gas exchange coefficients to generate dynamic responses for soil moisture as well as carbon dioxide variability over the traditional(Jarvis-type) approach. Based on these validation results as well as additional constraints such as, generalization for a larger landuse pattern, as well as better estimation or measurement of the constants involved in the mode initial conditions, this study concludes mesoscale models can benefit by adopting the physiological approach over the traditional Jarvis-type schemes. Results from the sensitivity of various CO2 and related second-order changes on local scale hydrology (precipitation, cloudiness, and evapotranpiration) at short and long term will also be presented.
Session 5a, Terrestrial Biosphere Feedback to the Atmosphere at the Regional and Global Scales (Parallel with Session 5B)
Thursday, 13 January 2000, 8:30 AM-2:30 PM
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