Article: Considering ecological formulations for estimating deposition velocity in air quality models Journal: International Journal of Global Environmental Issues (IJGENVI) 2006 Vol.6 No.2/3 pp.270 - 284 Abstract: A dry deposition modelling approach that includes surface feedback through photosynthesis relationships was recently developed. A canopy photosynthesis model is dynamically coupled to an atmospheric model with prognostic soil hydrology and surface energy balance. The effective surface resistance is calculated for a realistic and fully interactive estimation of gaseous deposition velocity (Vd). The model was able to correctly estimate observed ozone Vd over agricultural fields. The same model was tested for its ability to simulate ammonia Vd near an animal agricultural facility. The scheme did not reproduce the bi-directional exchange and had a much smaller range as compared to observations. The model was modified to include a simple ammonia compensation point formulation and the results were much closer to the observations. Study concludes that ecological approaches with default parameterisation and biophysical constants are convenient and effective in estimating Vd for air quality models. Inderscience Publishers - linking academia, business and industry through research

Title: Considering ecological formulations for estimating deposition velocity in air quality models

Authors: Dev Niyogi, Kiran Alapaty, Sharon Phillips, Viney P. Aneja

Addresses: Departments of Agronomy and Earth and Atmospheric Sciences, Purdue University, Lilly Hall of Sciences, 915 W. State St., West Lafayette, IN 47907–2054, USA. ' National Science Foundation, Division of Atmospheric Sciences, 4201 Wilson Blvd., Arlington, VA 22230, USA. ' USEPA Office of Air and Radiation, OAQPS/AQAD/AQMG, Mail Drop C439–01, 109 T.W. Alexander Drive, RTP, NC 27711, USA. ' Department of Marine, Earth, and Atmospheric Sciences, North Carolina State University, Raleigh, NC 27695–8208, USA

Abstract: A dry deposition modelling approach that includes surface feedback through photosynthesis relationships was recently developed. A canopy photosynthesis model is dynamically coupled to an atmospheric model with prognostic soil hydrology and surface energy balance. The effective surface resistance is calculated for a realistic and fully interactive estimation of gaseous deposition velocity (Vd). The model was able to correctly estimate observed ozone Vd over agricultural fields. The same model was tested for its ability to simulate ammonia Vd near an animal agricultural facility. The scheme did not reproduce the bi-directional exchange and had a much smaller range as compared to observations. The model was modified to include a simple ammonia compensation point formulation and the results were much closer to the observations. Study concludes that ecological approaches with default parameterisation and biophysical constants are convenient and effective in estimating Vd for air quality models.

Keywords: ammonia; bi-directional exchange; biosphere-atmosphere interaction; compensation point; deposition velocity; photosynthesis model; agricultural air quality; air pollution; dry deposition modelling; atmospheric model; prognostic soil hydrology; surface energy balance; agriculture.

DOI: 10.1504/IJGENVI.2006.010158

International Journal of Global Environmental Issues, 2006 Vol.6 No.2/3, pp.270 - 284

Published online: 23 Jun 2006 *

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Title: Considering ecological formulations for estimating deposition velocity in air quality models

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