Validation of Two MODIS aerosols algorithms with SKYNET and prospects for future climate satellites such as the GCOM-C/SGLI

Abstract

Potential improvements of aerosols algorithms for future climate-oriented satellites such as the coming Global Change Observation Mission Climate/Second generation Global Imager (GCOM-C/SGLI) are discussed based on a validation study of three years' (2008-2010) daily aerosols properties, that is, the aerosol optical thickness (AOT) and the Ångström exponent (AE) retrieved from two MODIS algorithms. The ground-truth data used for this validation study are aerosols measurements from 3 SKYNET ground sites. The results obtained show a good agreement between the ground-truth data AOT and that of one of the satellites' algorithms, then a systematic overestimation (around 0.2) by the other satellites' algorithm. The examination of the AE shows a clear underestimation (by around 0.2-0.3) by both satellites' algorithms. The uncertainties explaining these ground-satellites' algorithms discrepancies are examined: the cloud contamination affects differently the aerosols properties (AOT and AE) of both satellites' algorithms due to the retrieval scale differences between these algorithms. The deviation of the real part of the refractive index values assumed by the satellites' algorithms from that of the ground tends to decrease the accuracy of the AOT of both satellites' algorithms. The asymmetry factor (AF) of the ground tends to increase the AE ground-satellites discrepancies as well. © 2013 Jules R. Dim et al.