2020
DOI: 10.5194/acp-2020-1207
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AEROCOM/AEROSAT AAOT & SSA study, part I: evaluation and intercomparison of satellite measurements

Abstract: Abstract. Global measurements of absorptive aerosol optical depth (AAOD) are scarce and mostly provided by the ground network AERONET (AErosol RObotic NETwork). In recent years, several satellite products of AAOD have appeared. This study's primary aim is to establish the usefulness of these datasets for AEROCOM (AEROsol Comparisons between Observations and Models) model evaluation with a focus on the years 2006, 2008 and 2010. The satellite products are super-observations consisting of 1° × 1° × 30min aggrega… Show more

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Cited by 2 publications
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“…Polarized, multi-spectral multi-angular measurements improve retrieval sensitivity to the real part of the particle refractive index and to the width of the particle size distribution, as well as broadening the range of conditions under which meaningful particletype constraints can be obtained (e.g., Mishchenko & Travis, 1997;Dubovik et al, 2011;Hasekamp et al, 2011). Despite this, systematic differences in aerosol absorption derived from different algorithms applied to the same polarimetric sensor still exceed the requirements for adequate constraints on aerosol forcing (Schutgens et al, 2021). Although the deployment of new polarimeters with increased polarimetric accuracy (e.g., Werdell et al, 2019) should reduce these discrepancies to some degree, algorithmic assumptions will still be required (e.g., when layers containing different aerosol types occur in the atmospheric column); as with all new measurements, the quality of the results remains to be demonstrated.…”
Section: Satellite Constraints On Aerosol Particle Propertiesmentioning
confidence: 99%
“…Polarized, multi-spectral multi-angular measurements improve retrieval sensitivity to the real part of the particle refractive index and to the width of the particle size distribution, as well as broadening the range of conditions under which meaningful particletype constraints can be obtained (e.g., Mishchenko & Travis, 1997;Dubovik et al, 2011;Hasekamp et al, 2011). Despite this, systematic differences in aerosol absorption derived from different algorithms applied to the same polarimetric sensor still exceed the requirements for adequate constraints on aerosol forcing (Schutgens et al, 2021). Although the deployment of new polarimeters with increased polarimetric accuracy (e.g., Werdell et al, 2019) should reduce these discrepancies to some degree, algorithmic assumptions will still be required (e.g., when layers containing different aerosol types occur in the atmospheric column); as with all new measurements, the quality of the results remains to be demonstrated.…”
Section: Satellite Constraints On Aerosol Particle Propertiesmentioning
confidence: 99%