Abstract
Abstract. We use a 3-D regional atmospheric chemistry transport model (WRF-Chem) to examine ozone dry deposition in East Asia, which is an important but uncertain research area because of insufficient observation and numerical studies focusing on East Asia. Here we compare two widely used dry deposition parameterization schemes, the Wesely and M3DRY schemes, which are used in the WRF-Chem and Community Multiscale Air Quality (CMAQ) models, respectively. Simulated ozone dry deposition velocities with the two schemes under identical meteorological conditions show considerable differences (a factor of 2) owing to surface resistance parameterization discrepancies. Resulting ozone concentrations differ by up to 10 ppbv for a monthly mean in May when the peak ozone typically occurs in East Asia. An evaluation of the simulated dry deposition velocities shows that the Wesely scheme calculates values with more pronounced diurnal variation than the M3DRY and results in a good agreement with the observations. However, we find significant changes in simulated ozone concentrations using the Wesely scheme but with different surface type data sets, indicating the high sensitivity of ozone deposition calculations to the input data. The need is high for observations to constrain the dry deposition parameterization and its input data to improve the use of air quality models for East Asia.
Highlights
Ozone (O3) is a harmful air pollutant in surface air and the primary chemical oxidation driver in the free troposphere
The purpose of this study is to evaluate the ozone dry deposition simulations in two of the most widely used regional air chemistry models in East Asia: the Weather Research and Forecasting-Chemistry (WRF-Chem) and the Community Multiscale Air Quality (CMAQ) models
The SMOKEAsia calculates anthropogenic emissions based on the carbon bond 05 (CB05) chemical mechanism (Appel et al, 2007), which slightly differs from the carbon bond mechanism Z (CBMZ) used in WRF-Chem
Summary
Ozone (O3) is a harmful air pollutant in surface air and the primary chemical oxidation driver in the free troposphere. A critical role of such models includes quantifying the regional air pollution sources, including trans-boundary transport of air pollutants and their precursors in East Asia (Ku and Park, 2011; Jeong et al, 2011). We conducted several sensitivity simulations using different input data sets to demonstrate the uncertainties of the dry deposition calculations, which should be considered in assessing the spatial and temporal distributions of ozone and the contributions from a specific source to a particular region, including the trans-boundary transport of ozone precursors in East Asia
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