Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data:

An algorithm for the land aerosol and bidirectional reflectance inversion by times series technique (LABITS) is proposed and applied to data from the National Oceanic and Atmospheric Administration (NOAA) advanced very high resolution radiometer (AVHRR). The surface reflectance and aerosol optical d...

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Bibliographic Details
Main Authors: Li, Y., Xue, Y., Leeuw, G. de, Li, C., Yang, L., Hou, T., Marir, F.
Format: Article in Journal/Newspaper
Language:English
Published: 2013
Subjects:
Environment
Aerosol
Albedo
AVHRR
Bidirectional reflectance
Optical depth
Time series
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
Aerosol Robotic Network
Online Access:http://resolver.tudelft.nl/uuid:f98d191c-6a41-469a-93a8-7618d2417047
id fttno:oai:tudelft.nl:uuid:f98d191c-6a41-469a-93a8-7618d2417047
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spelling fttno:oai:tudelft.nl:uuid:f98d191c-6a41-469a-93a8-7618d2417047 2023-05-15T13:07:15+02:00 Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data: Li, Y. Xue, Y. Leeuw, G. de Li, C. Yang, L. Hou, T. Marir, F. 2013-01-01 http://resolver.tudelft.nl/uuid:f98d191c-6a41-469a-93a8-7618d2417047 en eng uuid:f98d191c-6a41-469a-93a8-7618d2417047 470326 http://resolver.tudelft.nl/uuid:f98d191c-6a41-469a-93a8-7618d2417047 Remote Sensing of Environment, 133, 1-20 Environment Aerosol Albedo AVHRR Bidirectional reflectance Optical depth Time series Urban Development Built Environment Earth & Environment CAS - Climate Air and Sustainability EELS - Earth Environmental and Life Sciences article 2013 fttno 2022-04-10T16:03:13Z An algorithm for the land aerosol and bidirectional reflectance inversion by times series technique (LABITS) is proposed and applied to data from the National Oceanic and Atmospheric Administration (NOAA) advanced very high resolution radiometer (AVHRR). The surface reflectance and aerosol optical depth are inverted from AVHRR Channel 1 data using a model for the earth-atmosphere system which couples an atmospheric radiative transfer model with the Ross-Thick-Li-sparse bidirectional reflectance factor (BRF) model. Basic assumptions are that the surface bidirectional reflective property does not vary over a 2-4day periods and that the aerosol characteristics are uniform within a 0.1°×0.1° window (approximately 10km×10km). The LABITS algorithm is applied to data from AVHRR on the NOAA-15, NOAA-16, and NOAA-18 satellites over four distinct areas, namely, North America, Europe, the Sahara and India, to simultaneously retrieve the aerosol optical depth (AOD), BRF parameters and surface albedo. Preliminary results show that AOD and reflectance retrieved from the three different instruments are in good agreement and that LABITS provides good results over both bright surfaces, e.g. the Sahara, and dark surfaces, e.g. Europe. Evaluation of the AOD versus data from the Aerosol Robotic Network (AERONET) provides a correlation coefficient R2 of 0.88 and a root-mean-square error (RMSE) of approximately 0.07; and the uncertainty is approximately δτ=±0.05±0.20τ. Comparing our results with the moderate resolution imaging spectroradiometer (MODIS) AOD products, over many areas, provides biases in the range of ±0.05. The surface albedo values calculated from the retrieved BRF parameters are similar to those provided by the MODIS albedo product (MCD43). The robustness and applicability of the LABITS algorithm are demonstrated with the retrieval of AOD over China during August 2008. Daily and monthly averaged results show good agreement with collocated AERONET observations and AQUA MODIS products (MYD04 and MYD08). The AOD uncertainty is estimated as δτ=±0.05±0.30τ. The preliminary analysis of time series over selected AERONET sites shows that the temporal variations of the AOD values retrieved by application of LABITS to AVHRR data are overall similar to temporal variations of AOD provided by the MODIS and AERONET. The algorithm has the potential to retrieve global AOD over land for long time series of NOAA AVHRR data going back to the 1980s, which are urgently needed for studies on aerosol climatology and global climate change. © 2013 Elsevier Inc. Article in Journal/Newspaper Aerosol Robotic Network TU Delft: Institutional Repository (Delft University of Technology)
institution Open Polar
collection TU Delft: Institutional Repository (Delft University of Technology)
op_collection_id fttno
language English
topic Environment
Aerosol
Albedo
AVHRR
Bidirectional reflectance
Optical depth
Time series
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
spellingShingle Environment
Aerosol
Albedo
AVHRR
Bidirectional reflectance
Optical depth
Time series
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
Li, Y.
Xue, Y.
Leeuw, G. de
Li, C.
Yang, L.
Hou, T.
Marir, F.
Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data:
topic_facet Environment
Aerosol
Albedo
AVHRR
Bidirectional reflectance
Optical depth
Time series
Urban Development
Built Environment
Earth & Environment
CAS - Climate
Air and Sustainability
EELS - Earth
Environmental and Life Sciences
description An algorithm for the land aerosol and bidirectional reflectance inversion by times series technique (LABITS) is proposed and applied to data from the National Oceanic and Atmospheric Administration (NOAA) advanced very high resolution radiometer (AVHRR). The surface reflectance and aerosol optical depth are inverted from AVHRR Channel 1 data using a model for the earth-atmosphere system which couples an atmospheric radiative transfer model with the Ross-Thick-Li-sparse bidirectional reflectance factor (BRF) model. Basic assumptions are that the surface bidirectional reflective property does not vary over a 2-4day periods and that the aerosol characteristics are uniform within a 0.1°×0.1° window (approximately 10km×10km). The LABITS algorithm is applied to data from AVHRR on the NOAA-15, NOAA-16, and NOAA-18 satellites over four distinct areas, namely, North America, Europe, the Sahara and India, to simultaneously retrieve the aerosol optical depth (AOD), BRF parameters and surface albedo. Preliminary results show that AOD and reflectance retrieved from the three different instruments are in good agreement and that LABITS provides good results over both bright surfaces, e.g. the Sahara, and dark surfaces, e.g. Europe. Evaluation of the AOD versus data from the Aerosol Robotic Network (AERONET) provides a correlation coefficient R2 of 0.88 and a root-mean-square error (RMSE) of approximately 0.07; and the uncertainty is approximately δτ=±0.05±0.20τ. Comparing our results with the moderate resolution imaging spectroradiometer (MODIS) AOD products, over many areas, provides biases in the range of ±0.05. The surface albedo values calculated from the retrieved BRF parameters are similar to those provided by the MODIS albedo product (MCD43). The robustness and applicability of the LABITS algorithm are demonstrated with the retrieval of AOD over China during August 2008. Daily and monthly averaged results show good agreement with collocated AERONET observations and AQUA MODIS products (MYD04 and MYD08). The AOD uncertainty is estimated as δτ=±0.05±0.30τ. The preliminary analysis of time series over selected AERONET sites shows that the temporal variations of the AOD values retrieved by application of LABITS to AVHRR data are overall similar to temporal variations of AOD provided by the MODIS and AERONET. The algorithm has the potential to retrieve global AOD over land for long time series of NOAA AVHRR data going back to the 1980s, which are urgently needed for studies on aerosol climatology and global climate change. © 2013 Elsevier Inc.
format Article in Journal/Newspaper
author Li, Y.
Xue, Y.
Leeuw, G. de
Li, C.
Yang, L.
Hou, T.
Marir, F.
author_facet Li, Y.
Xue, Y.
Leeuw, G. de
Li, C.
Yang, L.
Hou, T.
Marir, F.
author_sort Li, Y.
title Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data:
title_short Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data:
title_full Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data:
title_fullStr Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data:
title_full_unstemmed Retrieval of aerosol optical depth and surface reflectance over land from NOAA AVHRR data:
title_sort retrieval of aerosol optical depth and surface reflectance over land from noaa avhrr data:
publishDate 2013
url http://resolver.tudelft.nl/uuid:f98d191c-6a41-469a-93a8-7618d2417047
genre Aerosol Robotic Network
genre_facet Aerosol Robotic Network
op_source Remote Sensing of Environment, 133, 1-20
op_relation uuid:f98d191c-6a41-469a-93a8-7618d2417047
470326
http://resolver.tudelft.nl/uuid:f98d191c-6a41-469a-93a8-7618d2417047
_version_ 1766042990465253376

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