The Impact of Non-Lambertian Wavelength-Dependent Reflecting Surfaces on Stratospheric Radiation and Photochemistry |
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| Authors: | CHRIS A McLINDEN D J CHARTRAND E GRIFFIOEN J C McCONNELL C T McELROY |
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| Institution: | (1) Department of Physics and Astronomy, York University, North York, ON, Canada, M3P 1J3;(2) Department of Earth and Atmospheric Science, York University, North York, ON, Canada, M3P 1J3;(3) Atmospheric Environment Service, Downsview, ON, Canada, M3H 5T4 |
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| Abstract: | We have developed models of physically-based cloud and ocean surfacesfor use in photochemical models. These surface models are described in termsof a flux albedo and a normalized reflection function.Through these, the dependence of albedo on wavelength, solar zenithangle, cloud optical depth (cloud surfaces) and surface windspeed (ocean surfaces) are allowed for. In addition, the non-Lambertian nature of these surfaces is accounted for.We have integrated these surfacemodels into a multiple scattering radiative transfer model to assess their effects on the stratospheric radiation field and J-values. This was accomplished by comparison with results obtainedusing Lambertian, constant albedo surfaces. Comparisons of stratospheric radiation fields revealed that boththe wavelength and directional dependences of the cloud and oceansurfaces could be large effects.Differences between calculated J-values varied from 0 to 12% depending upon species, solar zenith angle, andheight.The J-values were then used as input for a chemical box model to examine the effects these surfaces had on stratospheric chemistry. Comparisons were made against box model runs using J-values fromconstant surfaces. Overall, the effect was on the order of 10%.Differences in number densities using these different surfacesvaried with latitude, height and species.Runs were made with and without heterogeneous chemistry. |
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| Keywords: | radiative transfer non-Lambertian surface ocean cloud photolysis chemistry |
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