Aerosol optical depth retrieval over snow using AATSR data:

Aerosol observations over the Arctic are important because of the effects of aerosols on Arctic climate, such as their direct and indirect effects on the Earth's radiation balance and on snow albedo. Although information on aerosol properties is available from ground-based measurements, passive...

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Main Authors: Mei, L., Xue, Y., Kokhanovsky, A.A., Hoyningen-Huene, W. von, Istomina, L., Leeuw, G. de, Burrows, J.P., Guang, J., Jing, Y.
Format: Article in Journal/Newspaper
Language:English
Published: 2013
Subjects:
Environment Climate
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
Arctic
Greenland
Aerosol Robotic Network
albedo
Online Access:http://resolver.tudelft.nl/uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6
id fttno:oai:tudelft.nl:uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6
record_format openpolar
spelling fttno:oai:tudelft.nl:uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6 2023-05-15T13:07:15+02:00 Aerosol optical depth retrieval over snow using AATSR data: Mei, L. Xue, Y. Kokhanovsky, A.A. Hoyningen-Huene, W. von Istomina, L. Leeuw, G. de Burrows, J.P. Guang, J. Jing, Y. 2013-01-01 http://resolver.tudelft.nl/uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6 en eng uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6 471990 http://resolver.tudelft.nl/uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6 International Journal of Remote Sensing, 14, 34, 5030-5041 Environment Climate Urban Development Built Environment Earth & Environment CAS - Climate Air and Sustainability EELS - Earth Environmental and Life Sciences article 2013 fttno 2022-04-10T16:03:26Z Aerosol observations over the Arctic are important because of the effects of aerosols on Arctic climate, such as their direct and indirect effects on the Earth's radiation balance and on snow albedo. Although information on aerosol properties is available from ground-based measurements, passive remote sensing using satellite measurements would offer the advantage of large spatial coverage with good temporal resolution, even though, due to light limitations, this is only available during the Arctic summer. However, aerosol optical depth (AOD) retrieval over the Arctic region is a great challenge due to the high reflectance of snow and ice and due to the high solar zenith angle. In this article, we describe a retrieval algorithm using Advanced Along-Track Scanning Radiometer (AATSR) data, a radiometer flying on the European Space Agency (ESA) Environmental Satellite (ENVISAT), which offers two views (near nadir and at 55° forward) at seven wavelengths in the visible thermal-infrared (VIS-TIR). The main idea of the Dual-View Multi-Spectral (DVMS) approach is to use the dual view to separate contributions to reflectance measured at the top of the atmosphere (TOA) due to atmospheric aerosol and the underlying surface. The algorithm uses an analytical snow bidirectional reflectance distribution function (BRDF) model for the estimation of the ratio of snow reflectances in the nadir and forward views, as well as an estimate of the atmospheric contribution to TOA reflectance obtained using the dark pixel method over the adjacent ocean surface, assuming that this value applies over nearby land surfaces in the absence of significant sources across the coastline. An iteration involving all four AATSR wavebands in the visible near-infrared (VIS-NIR) is used to retrieve the relevant information. The method is illustrated for AATSR overpasses over Greenland with clear sky in April 2009. Comparison of the retrieved AOD with AErosol Robotic Network (AERONET) data shows a correlation coefficient of 0.75. The AODs retrieved from AATSR using the DVMS approach and those obtained from AERONET data show similar temporal trends, but the AERONET results are more variable and the highest AOD values are mostly missed by the DVMS approach. Limitations of the DVMS method are discussed. The pure-snow BRDF model needs further correction in order to obtain a better estimation for mixtures of snow and ice. © 2013 Copyright 2013 Taylor & Francis. Article in Journal/Newspaper Aerosol Robotic Network albedo Arctic Greenland TU Delft: Institutional Repository (Delft University of Technology) Arctic Greenland
institution Open Polar
collection TU Delft: Institutional Repository (Delft University of Technology)
op_collection_id fttno
language English
topic Environment Climate
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
spellingShingle Environment Climate
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
Mei, L.
Xue, Y.
Kokhanovsky, A.A.
Hoyningen-Huene, W. von
Istomina, L.
Leeuw, G. de
Burrows, J.P.
Guang, J.
Jing, Y.
Aerosol optical depth retrieval over snow using AATSR data:
topic_facet Environment Climate
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
description Aerosol observations over the Arctic are important because of the effects of aerosols on Arctic climate, such as their direct and indirect effects on the Earth's radiation balance and on snow albedo. Although information on aerosol properties is available from ground-based measurements, passive remote sensing using satellite measurements would offer the advantage of large spatial coverage with good temporal resolution, even though, due to light limitations, this is only available during the Arctic summer. However, aerosol optical depth (AOD) retrieval over the Arctic region is a great challenge due to the high reflectance of snow and ice and due to the high solar zenith angle. In this article, we describe a retrieval algorithm using Advanced Along-Track Scanning Radiometer (AATSR) data, a radiometer flying on the European Space Agency (ESA) Environmental Satellite (ENVISAT), which offers two views (near nadir and at 55° forward) at seven wavelengths in the visible thermal-infrared (VIS-TIR). The main idea of the Dual-View Multi-Spectral (DVMS) approach is to use the dual view to separate contributions to reflectance measured at the top of the atmosphere (TOA) due to atmospheric aerosol and the underlying surface. The algorithm uses an analytical snow bidirectional reflectance distribution function (BRDF) model for the estimation of the ratio of snow reflectances in the nadir and forward views, as well as an estimate of the atmospheric contribution to TOA reflectance obtained using the dark pixel method over the adjacent ocean surface, assuming that this value applies over nearby land surfaces in the absence of significant sources across the coastline. An iteration involving all four AATSR wavebands in the visible near-infrared (VIS-NIR) is used to retrieve the relevant information. The method is illustrated for AATSR overpasses over Greenland with clear sky in April 2009. Comparison of the retrieved AOD with AErosol Robotic Network (AERONET) data shows a correlation coefficient of 0.75. The AODs retrieved from AATSR using the DVMS approach and those obtained from AERONET data show similar temporal trends, but the AERONET results are more variable and the highest AOD values are mostly missed by the DVMS approach. Limitations of the DVMS method are discussed. The pure-snow BRDF model needs further correction in order to obtain a better estimation for mixtures of snow and ice. © 2013 Copyright 2013 Taylor & Francis.
format Article in Journal/Newspaper
author Mei, L.
Xue, Y.
Kokhanovsky, A.A.
Hoyningen-Huene, W. von
Istomina, L.
Leeuw, G. de
Burrows, J.P.
Guang, J.
Jing, Y.
author_facet Mei, L.
Xue, Y.
Kokhanovsky, A.A.
Hoyningen-Huene, W. von
Istomina, L.
Leeuw, G. de
Burrows, J.P.
Guang, J.
Jing, Y.
author_sort Mei, L.
title Aerosol optical depth retrieval over snow using AATSR data:
title_short Aerosol optical depth retrieval over snow using AATSR data:
title_full Aerosol optical depth retrieval over snow using AATSR data:
title_fullStr Aerosol optical depth retrieval over snow using AATSR data:
title_full_unstemmed Aerosol optical depth retrieval over snow using AATSR data:
title_sort aerosol optical depth retrieval over snow using aatsr data:
publishDate 2013
url http://resolver.tudelft.nl/uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6
geographic Arctic
Greenland
geographic_facet Arctic
Greenland
genre Aerosol Robotic Network
albedo
Arctic
Greenland
genre_facet Aerosol Robotic Network
albedo
Arctic
Greenland
op_source International Journal of Remote Sensing, 14, 34, 5030-5041
op_relation uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6
471990
http://resolver.tudelft.nl/uuid:5bfc3f7b-ef88-44ce-ba07-2c44123867a6
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