A revised parameterization for gaseous dry deposition in air-quality models
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Abstract
Abstract. A parameterization scheme for calculating gaseous dry deposition velocities in air-quality models is revised based on recent study results on non-stomatal uptake of O3 and SO2 over 5 different vegetation types. Non-stomatal resistance, which includes in-canopy aerodynamic, soil and cuticle resistances, for SO2 and O3 is parameterized as a function of friction velocity, relative humidity, leaf area index, and canopy wetness. Non-stomatal resistance for other chemical species is scaled to those of SO2 and O3 based on their chemical and physical characteristics. Stomatal resistance is calculated using a two-big-leaf stomatal resistance sub-model for all gaseous species of interest. The improvements in…
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Topics
Keywords
- Deposition (geology)
- Environmental science
- Atmospheric sciences
- Canopy
- Leaf area index
- Relative humidity
- Humidity
- Air quality index
UN Sustainable Development Goals
- Life in Land
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