Development, Production and Evaluation of Aerosol Climate Data Records from European Satellite Observations (Aerosol_cci)

Producing a global and comprehensive description of atmospheric aerosols requires integration of ground-based, airborne, satellite and model datasets. Due to its complexity, aerosol monitoring requires the use of several data records with complementary information content. This paper describes the l...

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Published in:Remote sensing (Basel, Switzerland) Vol. 8; no. 5; p. 421
Main Authors: Popp, Thomas, De Leeuw, Gerrit, Bingen, Christine, Brühl, Christoph, Capelle, Virginie, Chedin, Alain, Clarisse, Lieven, Dubovik, Oleg, Grainger, Roy, Griesfeller, Jan, Heckel, Andreas, Kinne, Stefan, Klüser, Lars, Kosmale, Miriam, Kolmonen, Pekka, Lelli, Luca, Litvinov, Pavel, Mei, Linlu, North, Peter, Pinnock, Simon, Povey, Adam, Robert, Charles, Schulz, Michael, Sogacheva, Larisa, Stebel, Kerstin, Stein Zweers, Deborah, Thomas, Gareth, Tilstra, Lieuwe, Vandenbussche, Sophie, Veefkind, Pepijn, Vountas, Marco, Xue, Yong
Format: Journal Article
Language:English
Published: MDPI AG 16.05.2016
Subjects:
absorbing aerosol
aerosols
algorithm evolution and climate data record production
AOD
best practices
dust
satellite climate data record
stratospheric aerosol extinction
ISSN:2072-4292, 2072-4292
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Abstract Producing a global and comprehensive description of atmospheric aerosols requires integration of ground-based, airborne, satellite and model datasets. Due to its complexity, aerosol monitoring requires the use of several data records with complementary information content. This paper describes the lessons learned while developing and qualifying algorithms to generate aerosol Climate Data Records (CDR) within the European Space Agency (ESA) Aerosol_cci project. An iterative algorithm development and evaluation cycle involving core users is applied. It begins with the application-specific refinement of user requirements, leading to algorithm development, dataset processing and independent validation followed by user evaluation. This cycle is demonstrated for a CDR of total Aerosol Optical Depth (AOD) from two subsequent dual-view radiometers. Specific aspects of its applicability to other aerosol algorithms are illustrated with four complementary aerosol datasets. An important element in the development of aerosol CDRs is the inclusion of several algorithms evaluating the same data to benefit from various solutions to the ill-determined retrieval problem. The iterative approach has produced a 17-year AOD CDR, a 10-year stratospheric extinction profile CDR and a 35-year Absorbing Aerosol Index record. Further evolution cycles have been initiated for complementary datasets to provide insight into aerosol properties (i.e., dust aerosol, aerosol absorption).
AbstractList Producing a global and comprehensive description of atmospheric aerosols requires integration of ground-based, airborne, satellite and model datasets. Due to its complexity, aerosol monitoring requires the use of several data records with complementary information content. This paper describes the lessons learned while developing and qualifying algorithms to generate aerosol Climate Data Records (CDR) within the European Space Agency (ESA) Aerosol_cci project. An iterative algorithm development and evaluation cycle involving core users is applied. It begins with the application-specific refinement of user requirements, leading to algorithm development, dataset processing and independent validation followed by user evaluation. This cycle is demonstrated for a CDR of total Aerosol Optical Depth (AOD) from two subsequent dual-view radiometers. Specific aspects of its applicability to other aerosol algorithms are illustrated with four complementary aerosol datasets. An important element in the development of aerosol CDRs is the inclusion of several algorithms evaluating the same data to benefit from various solutions to the ill-determined retrieval problem. The iterative approach has produced a 17-year AOD CDR, a 10-year stratospheric extinction profile CDR and a 35-year Absorbing Aerosol Index record. Further evolution cycles have been initiated for complementary datasets to provide insight into aerosol properties (i.e., dust aerosol, aerosol absorption).
Author Bingen, Christine
Klüser, Lars
Pinnock, Simon
Popp, Thomas
Mei, Linlu
Brühl, Christoph
Lelli, Luca
North, Peter
Xue, Yong
Thomas, Gareth
Stein Zweers, Deborah
Stebel, Kerstin
Chedin, Alain
Grainger, Roy
Griesfeller, Jan
Litvinov, Pavel
Capelle, Virginie
Heckel, Andreas
Schulz, Michael
De Leeuw, Gerrit
Tilstra, Lieuwe
Kinne, Stefan
Veefkind, Pepijn
Dubovik, Oleg
Robert, Charles
Kolmonen, Pekka
Povey, Adam
Vandenbussche, Sophie
Sogacheva, Larisa
Clarisse, Lieven
Vountas, Marco
Kosmale, Miriam
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SubjectTerms absorbing aerosol
aerosols
algorithm evolution and climate data record production
AOD
best practices
dust
satellite climate data record
stratospheric aerosol extinction
Title Development, Production and Evaluation of Aerosol Climate Data Records from European Satellite Observations (Aerosol_cci)
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