Consistency of aerosols above clouds characterization from A-Train active and passive measurements

Abstract : This study presents a comparison between the retrieval of optical properties of aerosol above clouds (AAC) from different techniques developed for the A-Train sensors CALIOP/CALIPSO and POLDER/PARASOL. The main objective is to analyse the consistency between the results derived from the active and the passive measurements. We compare the aerosol optical thickness (AOT) above optically thick clouds (cloud optical thickness (COT) larger than 3) and their Ångström exponent (AE). These parameters are retrieved with the CALIOP operational method, the POLDER operational polarization method and the CALIOP-based de-polarization ratio method (DRM) – for which we also propose a calibrated version (denominated DRM SODA , where SODA is the Synergized Optical Depth of Aerosols). We analyse 6 months of data over three distinctive regions characterized by different types of aerosols and clouds. Additionally , for these regions, we select three case studies: a biomass-burning event over the South Atlantic Ocean, a Sa-haran dust case over the North Atlantic Ocean and a Siberian biomass-burning event over the North Pacific Ocean. Four and a half years of data are studied over the entire globe for distinct situations where aerosol and cloud layers are in contact or vertically separated. Overall, the regional analysis shows a good correlation between the POLDER and the DRM SODA AOTs when the microphysics of aerosols is dominated by fine-mode particles of biomass-burning aerosols from southern Africa (correlation coefficient (R 2) of 0.83) or coarse-mode aerosols of Saharan dust (R 2 of 0.82). A good correlation between these methods (R 2 of 0.68) is also observed in the global treatment, when the aerosol and cloud layers are separated well. The analysis of detached layers also shows a mean difference in AOT of 0.07 at 532 nm between POLDER and DRM SODA at a global scale. The correlation between the retrievals decreases when a complex mixture of aerosols is expected (R 2 of 0.37) – as in the East Asia region – and when the aerosol–cloud layers are in contact (R 2 of 0.36). The correlation coefficient between the CALIOP operational method and POLDER is found to be low, as the CALIOP method largely underestimates the aerosol loading above clouds by a factor that ranges from 2 to 4. Potential biases on the retrieved AOT as a function of cloud properties are also investigated. For different types of scenes, the retrieval of above-cloud AOT from POLDER and from DRM are compared for different underlying cloud properties (droplet effective radius (r eff) and COT retrieved with MODIS). The results reveal that DRM AOT vary with r eff. When accounting for r eff in the DRM algorithm, the consistency between the methods increases. The sensitivity study shows that an additional polarized signal coming from aerosols located within the cloud could affect the polarization method, which leads to an overestimation of the AOT retrieved with POLDER algorithm. In addition, the aerosols attached to or within the cloud can potentially impact the DRM retrievals through the modification of the cloud droplet Published by Copernicus Publications on behalf of the European Geosciences Union. 3500 L. T. Deaconu et al.: Consistency of aerosols above clouds chemical composition and its ability to backscatter light. The next step of this work is to combine POLDER and CALIOP to investigate the impacts of aerosols on clouds and climate when these particles are transported above or within clouds.
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Atmospheric Measurement Techniques, European Geosciences Union, 2017, 10 (9), pp.3499 - 3523. 〈10.5194/amt-10-3499-2017〉
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Lucia Deaconu, Fabien Waquet, Damien Josset, Nicolas Ferlay, Fanny Peers, et al.. Consistency of aerosols above clouds characterization from A-Train active and passive measurements. Atmospheric Measurement Techniques, European Geosciences Union, 2017, 10 (9), pp.3499 - 3523. 〈10.5194/amt-10-3499-2017〉. 〈insu-01592349〉

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