Earth Observation Data Group

Retrieval of ash properties from IASI measurements

ATMOSPHERIC MEASUREMENT TECHNIQUES 9:11 (2016) 5407-5422

Authors:

LJ Ventress, G McGarragh, E Carboni, AJ Smith, RG Grainger

Simulation of stratospheric ozone in global forecast model using linear photochemistry parameterization

Asia-Pacific Journal of Atmospheric Sciences Springer Nature 52:5 (2016) 479-494

Authors:

Gill-Ran Jeong, Beatriz M Monge-Sanz, Eun-Hee Lee, Jerald R Ziemke

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

Remote Sensing MDPI 8:5 (2016) 421-421

Authors:

T Popp, G de Leeuw, C Bingen, C Brühl, V Capelle, A Chedin, L Clarisse, O Dubovik, Roy Grainger, J Griesfeller, A Heckel, S Kinne, L Klüser, M Kosmale, P Kolmonen, L Lelli, P Litvinov, L Mei, P North, S Pinnock, Adam Povey, C Robert, M Schulz, L Sogacheva, K Stebel, D Stein Zweers, G Thomas, L Tilstra, S Vandenbussche, P Veefkind, M Vountas, Y Xue

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).

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

REMOTE SENSING 8:5 (2016) ARTN 421

Authors:

T Popp, G de Leeuw, C Bingen, C Bruehl, V Capelle, A Chedin, L Clarisse, O Dubovik, R Grainger, J Griesfeller, A Heckel, S Kinne, L Klueser, M Kosmale, P Kolmonen, L Lelli, P Litvinov, L Mei, P North, S Pinnock, A Povey, C Robert, M Schulz, L Sogacheva, K Stebel, DS Zweers, G Thomas, LG Tilstra, S Vandenbussche, P Veefkind, M Vountas, Y Xue

Validation of ash optical depth and layer height retrieved from passive satellite sensors using EARLINET and airborne lidar data: the case of the Eyjafjallajökull eruption

Atmospheric Chemistry and Physics Copernicus Publications 16:9 (2016) 5705-5720

Authors:

Dimitris Balis, Maria-Elissavet Koukouli, Nikolaos Siomos, Spyridon Dimopoulos, Lucia Mona, Gelsomina Pappalardo, Franco Marenco, Lieven Clarisse, Lucy J Ventress, Elisa Carboni, Roy G Grainger, Ping Wang, Gijsbert Tilstra, Ronald van der A, Nicolas Theys, Claus Zehner