Importance of molecular Rayleigh scattering in the enhancement of clear sky reflectance in the vicinity of boundary layer cumulus clouds

Wen, G., A. Marshak, and B. Cahalan (2008), Importance of molecular Rayleigh scattering in the enhancement of clear sky reflectance in the vicinity of boundary layer cumulus clouds, J. Geophys. Res., 113, D24207, doi:10.1029/2008JD010592.
Abstract

Clouds increase the complexity of atmospheric radiative transfer processes, particularly for aerosol retrievals in clear regions in the vicinity of clouds. This study focuses on identifying mechanisms responsible for the enhancement of nadir reflectance in clear regions in the vicinity of cumulus clouds and quantifies the relative importance of each mechanism. Using cloud optical properties and surface albedo derived from Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) and Moderate Resolution Imaging Spectroradiometer (MODIS), we performed extensive Monte Carlo simulations of radiative transfer in two cumulus scenes in a biomass burning region in Brazil. The results show that the scattering of radiation by clouds, followed by upward Rayleigh scattering by molecules above cloud top over clear gaps, is the dominant mechanism for the enhancement of visible reflectance in clear regions in boundary layer cumulus field over dark surfaces with aerosols trapped in the boundary layer. The Rayleigh scattering contributes ~80% and ~50% to the total enhancement for wavelengths 0.47 mm (with aerosol optical thickness 0.2) and 0.66 mm (with aerosol optical thickness 0.1), respectively. Out of the total contribution of molecular scattering, ~90% arises from the clear atmosphere above cloud top height. The mechanism is valid for a large range of aerosol optical thicknesses (up to 1 in this study) for 0.47 mm, and for aerosol optical thickness up to 0.2 for 0.66 mm. Our results provide a basis to develop simplifications for future aerosol remote sensing from satellite.

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Research Program
Radiation Science Program (RSP)
Mission
Aqua-MODIS
Terra-MODIS