The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.

The established procedure to access the quality of atmospheric correction processors and their underlying algorithms is the comparison of satellite data products with related in-situ measurements. Although this approach addresses the accuracy of derived geophysical properties in a straight forward f...

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Published in:Remote Sensing of Environment
Main Authors: MUELLER Dagmar, KRASEMANN Hajo, BREWIN Robert, BROCKMANN Carsten, DESCHAMPS Pierre-Yves, DOERFFER Roland, FOMFERRA Norman, FRANZ Bryan, GRANT M., GROOM Steve, MELIN Frederic, PLATT Trevor, REGNER Peter, SATHYENDRANATH Shubha, STEINMETZ Francois, SWINTON John
Language:English
Published: ELSEVIER SCIENCE INC 2015
Subjects:
North Atlantic
Online Access:https://publications.jrc.ec.europa.eu/repository/handle/JRC95824
http://www.sciencedirect.com/science/article/pii/S0034425715000620
https://doi.org/10.1016/j.rse.2015.01.033
id ftjrc:oai:publications.jrc.ec.europa.eu:JRC95824
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spelling ftjrc:oai:publications.jrc.ec.europa.eu:JRC95824 2024-09-15T18:24:13+00:00 The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors. MUELLER Dagmar KRASEMANN Hajo BREWIN Robert BROCKMANN Carsten DESCHAMPS Pierre-Yves DOERFFER Roland FOMFERRA Norman FRANZ Bryan GRANT M. GROOM Steve MELIN Frederic PLATT Trevor REGNER Peter SATHYENDRANATH Shubha STEINMETZ Francois SWINTON John 2015 Print https://publications.jrc.ec.europa.eu/repository/handle/JRC95824 http://www.sciencedirect.com/science/article/pii/S0034425715000620 https://doi.org/10.1016/j.rse.2015.01.033 eng eng ELSEVIER SCIENCE INC JRC95824 2015 ftjrc https://doi.org/10.1016/j.rse.2015.01.033 2024-07-22T04:42:16Z The established procedure to access the quality of atmospheric correction processors and their underlying algorithms is the comparison of satellite data products with related in-situ measurements. Although this approach addresses the accuracy of derived geophysical properties in a straight forward fashion, it is also limited in its ability to catch systematic sensor and processor dependent behaviour of satellite products along the scan-line, which might impair the usefulness of the data in spatial analyses. The Ocean Colour Climate Change Initiative (OC-CCI) aims to create an ocean colour dataset on a global scale to meet the demands of the ecosystem modelling community. The need for products with increasing spatial and temporal resolution that also show as little systematic and random errors as possible, increases. Due to cloud cover, even temporal means can be influenced by along-scanline artefacts if the observations are not balanced and effects cannot be cancelled out mutually. These effects can arise from a multitude of results which are not easily separated, if at all. Among the sources of artefacts, there are some sensor-specific calibration issues which should lead to similar responses in all processors, as well as processor-specific features which correspond with the individual choices in the algorithms. A set of methods is proposed and applied to MERIS data over two regions of interest in the North Atlantic and the South Pacific Gyre. The normalised water leaving reflectance products of four atmospheric correction processors, which have also been evaluated in match-up analysis, is analysed in order to find and interpret systematic effects across track. These results are summed up with a semi-objective ranking and are used as a complement to the match-up analysis in the decision for the best Atmospheric Correction (AC) processor. Although the need for discussion remains concerning the absolutes by which to judge an AC processor, this example demonstrates clearly, that relying on the match-up analysis ... Other/Unknown Material North Atlantic Joint Research Centre, European Commission: JRC Publications Repository Remote Sensing of Environment 162 257 270
institution Open Polar
collection Joint Research Centre, European Commission: JRC Publications Repository
op_collection_id ftjrc
language English
description The established procedure to access the quality of atmospheric correction processors and their underlying algorithms is the comparison of satellite data products with related in-situ measurements. Although this approach addresses the accuracy of derived geophysical properties in a straight forward fashion, it is also limited in its ability to catch systematic sensor and processor dependent behaviour of satellite products along the scan-line, which might impair the usefulness of the data in spatial analyses. The Ocean Colour Climate Change Initiative (OC-CCI) aims to create an ocean colour dataset on a global scale to meet the demands of the ecosystem modelling community. The need for products with increasing spatial and temporal resolution that also show as little systematic and random errors as possible, increases. Due to cloud cover, even temporal means can be influenced by along-scanline artefacts if the observations are not balanced and effects cannot be cancelled out mutually. These effects can arise from a multitude of results which are not easily separated, if at all. Among the sources of artefacts, there are some sensor-specific calibration issues which should lead to similar responses in all processors, as well as processor-specific features which correspond with the individual choices in the algorithms. A set of methods is proposed and applied to MERIS data over two regions of interest in the North Atlantic and the South Pacific Gyre. The normalised water leaving reflectance products of four atmospheric correction processors, which have also been evaluated in match-up analysis, is analysed in order to find and interpret systematic effects across track. These results are summed up with a semi-objective ranking and are used as a complement to the match-up analysis in the decision for the best Atmospheric Correction (AC) processor. Although the need for discussion remains concerning the absolutes by which to judge an AC processor, this example demonstrates clearly, that relying on the match-up analysis ...
author MUELLER Dagmar
KRASEMANN Hajo
BREWIN Robert
BROCKMANN Carsten
DESCHAMPS Pierre-Yves
DOERFFER Roland
FOMFERRA Norman
FRANZ Bryan
GRANT M.
GROOM Steve
MELIN Frederic
PLATT Trevor
REGNER Peter
SATHYENDRANATH Shubha
STEINMETZ Francois
SWINTON John
spellingShingle MUELLER Dagmar
KRASEMANN Hajo
BREWIN Robert
BROCKMANN Carsten
DESCHAMPS Pierre-Yves
DOERFFER Roland
FOMFERRA Norman
FRANZ Bryan
GRANT M.
GROOM Steve
MELIN Frederic
PLATT Trevor
REGNER Peter
SATHYENDRANATH Shubha
STEINMETZ Francois
SWINTON John
The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.
author_facet MUELLER Dagmar
KRASEMANN Hajo
BREWIN Robert
BROCKMANN Carsten
DESCHAMPS Pierre-Yves
DOERFFER Roland
FOMFERRA Norman
FRANZ Bryan
GRANT M.
GROOM Steve
MELIN Frederic
PLATT Trevor
REGNER Peter
SATHYENDRANATH Shubha
STEINMETZ Francois
SWINTON John
author_sort MUELLER Dagmar
title The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.
title_short The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.
title_full The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.
title_fullStr The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.
title_full_unstemmed The Ocean Colour Climate Change Initiative. II. Spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.
title_sort ocean colour climate change initiative. ii. spatial and temporal homogeneity of satellite data retrieval due to systematic effects in atmospheric correction processors.
publisher ELSEVIER SCIENCE INC
publishDate 2015
url https://publications.jrc.ec.europa.eu/repository/handle/JRC95824
http://www.sciencedirect.com/science/article/pii/S0034425715000620
https://doi.org/10.1016/j.rse.2015.01.033
genre North Atlantic
genre_facet North Atlantic
op_relation JRC95824
op_doi https://doi.org/10.1016/j.rse.2015.01.033
container_title Remote Sensing of Environment
container_volume 162
container_start_page 257
op_container_end_page 270
_version_ 1810464535262265344

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