Aerosol single-scattering albedo retrieval over North Africa using critical reflectance

2010 Fall. Includes bibliographical references. The sign and magnitude of the aerosol radiative forcing over bright surfaces is highly dependent on the absorbing properties of the aerosol. Thus, the determination of aerosol forcing over desert regions requires accurate information about the aerosol...

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Bibliographic Details
Main Author: Wells, Kelley Carlene
Other Authors: Kreidenweis, Sonia M., Stephens, Graeme L., 1952-, Remer, Lorraine Ann, Collett, Jeffrey L., Peel, Jennifer L.
Format: Text
Language:English
Published: Colorado State University. Libraries 2007
Subjects:
remote sensing
radiative forcing
dust
biomass burning
aerosol absorption
Atmospheric aerosols > North Africa > Remote sensing
Artificial satellites in remote sensing > North Africa
Albedo > Remote sensing
Biomass > Combustion > North Africa
Aerosol Robotic Network
Online Access:http://hdl.handle.net/10217/44973
Description
Summary:2010 Fall. Includes bibliographical references. The sign and magnitude of the aerosol radiative forcing over bright surfaces is highly dependent on the absorbing properties of the aerosol. Thus, the determination of aerosol forcing over desert regions requires accurate information about the aerosol single-scattering albedo (SSA). However, the brightness of desert surfaces complicates the retrieval of aerosol optical properties using passive space-based measurements. The aerosol critical reflectance is one parameter that can be used to relate top-of-atmosphere (TOA) reflectance changes over land to the aerosol absorption properties, without knowledge of the underlying surface properties or aerosol loading. Physically, the parameter represents the TOA reflectance at which increased aerosol scattering due to increased aerosol loading is balanced by increased absorption of the surface contribution to the TOA reflectance. It can be derived by comparing two satellite images with different aerosol loading, assuming that the surface reflectance and background aerosol are similar between the two days. In this work, we explore the utility of the critical reflectance method for routine monitoring of spectral aerosol absorption from space over North Africa, a region that is predominantly impacted by absorbing dust and biomass burning aerosol. We derive the critical reflectance from Moderate Resolution Spectroradiometer (MODIS) Level 1B reflectances in the vicinity of two Aerosol Robotic Network (AERONET) stations: Tamanrasset, a site in the Algerian Sahara, and Banizoumbou, a Sahelian site in Niger. We examine the sensitivity of the critical reflectance parameter to aerosol physical and optical properties, as well as solar and viewing geometry, using the Santa Barbara DISORT Radiative Transfer (SBDART) model, and apply our findings to retrieve SSA from the MODIS critical reflectance values. We compare our results to AERONET-retrieved estimates, as well as to measurements of the TOA albedo and surface fluxes from the ...

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