Journal
ATMOSPHERIC ENVIRONMENT
Volume 36, Issue 30, Pages 4787-4799Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/S1352-2310(02)00567-8
Keywords
dry deposition; non-stomatal uptake; ozone; surface resistance; wet canopies
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Measurements of O-3 fluxes and concentrations over five different sites were used to study O-3 dry deposition. It was found that high humidity, dew and rain increase O-3 uptake by canopy cuticles. However, the increase by cuticle uptake maybe offset by a decrease in stomatal uptake due to weak solar radiation or stomatal blocking under wet conditions. Thus, during nighttime the overall canopy resistances (R-c) for O-3 uptake under wet conditions was usually smaller than under dry conditions, while in the daytime, R-c for wet canopies could be either larger or smaller compared to dry canopies. This will depend on the relative contributions of the decrease in cuticle resistance and the increase in stomatal resistance. The non-stomatal uptake of O-3 was found to be affected by friction velocity, relative humidity, canopy wetness, leaf area index, etc. Parameterizations for non-stomatal resistance for dry and wet canopies were developed based on the five site O-3 flux data. These equations were found to provide reasonable predictions of non-stomatal canopy resistance based upon comparisons with the nighttime and daytime measurements. Crown Copyright (C) 2002 Published by Elsevier Science Ltd. All rights reserved.
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