2012
DOI: 10.5194/acp-12-9167-2012
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Retrieval of aerosol optical depth over land based on a time series technique using MSG/SEVIRI data

Abstract: Abstract.A novel approach for the joint retrieval of aerosol optical depth (AOD) and aerosol type, using Meteosat Second Generation -Spinning Enhanced Visible and Infrared Imagers (MSG/SEVIRI) observations in two solar channels, is presented. The retrieval is based on a Time Series (TS) technique, which makes use of the two visible bands at 0.6 µm and 0.8 µm in three orderly scan times (15 min interval between two scans) to retrieve the AOD over land. Using the radiative transfer equation for plane-parallel at… Show more

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Cited by 39 publications
(39 citation statements)
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“…The surface properties are estimated for particular conditions: during relatively cloud-free reference days (cloud cover over Poland < 0.6) which exhibit a low AOD (<0.15 at 550 nm), based on top-of-atmosphere (TOA) reflectance measured by the SEVIRI detector. However, even for low AODs, the elimination of influence of atmospheric components (in particular atmospheric aerosols) on the reflectance measured by satellite is still essential, thus several approaches to tackle this topic were proposed (e.g., [41,42]). In the algorithm used here, instead of the golden section search method and parabolic interpolation, an approach based on applying the optimal interpolation method [43] is used with the additional ground based sources of AOD data, that allow a reduction of the typical uncertainties related to the aerosol background estimation, and hence improve the AOD SEVIRI retrieval.…”
Section: Retrieval Of Seviri Aerosol Optical Depthmentioning
confidence: 99%
“…The surface properties are estimated for particular conditions: during relatively cloud-free reference days (cloud cover over Poland < 0.6) which exhibit a low AOD (<0.15 at 550 nm), based on top-of-atmosphere (TOA) reflectance measured by the SEVIRI detector. However, even for low AODs, the elimination of influence of atmospheric components (in particular atmospheric aerosols) on the reflectance measured by satellite is still essential, thus several approaches to tackle this topic were proposed (e.g., [41,42]). In the algorithm used here, instead of the golden section search method and parabolic interpolation, an approach based on applying the optimal interpolation method [43] is used with the additional ground based sources of AOD data, that allow a reduction of the typical uncertainties related to the aerosol background estimation, and hence improve the AOD SEVIRI retrieval.…”
Section: Retrieval Of Seviri Aerosol Optical Depthmentioning
confidence: 99%
“…The atmospheric correction was shown to have an accuracy equivalent to that of the MODIS products, within 20% of the AOD values. To improve the temporal resolution of the AOD estimation, Mei et al [77] developed an algorithm to simultaneously retrieve the AOD and surface reflectance by assuming that both the aerosol and the surface reflectance are stable in the three consecutive SEVIRI observations, which shows good agreement with in situ measurements.…”
Section: Estimating Albedo From Geostationary Satellite Datamentioning
confidence: 87%
“…The next algorithm, the Oxford-Ral Aerosol and Cloud (ORAC) scheme, uses an optimal estimation approach and allows the retrieved AOD, aerosol effective radius and surface albedo to vary simultaneously to calculate the retrieved state with the maximum probability, whilst accounting for both measurements and a priori data and uncertainties in both [23]. The retrieval developed by Mei et al [24] is based on a time-series technique, which makes use of two visible bands at 0.6 and 0.8 μm in three orderly scan times. In this case, the surface properties estimation technique takes into account the assumption that the ratio of the reflectance in the solar band for two subsequent observations may be well approximated by the ratio of the reflectance at 1.6 μm.…”
Section: Introductionmentioning
confidence: 99%