Validation report of the CAMS near-real-time global atmospheric composition service. Status up to 1 September 2016

[1]  Henk Eskes,et al.  Validation of reactive gases and aerosols in the MACC global analysis and forecast system , 2015 .

[2]  H. Eskes,et al.  Extended and refined multi sensor reanalysis of total ozone for the period 1970–2012 , 2015 .

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[4]  J. Lambert,et al.  Copernicus stratospheric ozone service, 2009–2012: validation, system intercomparison and roles of input data sets , 2015 .

[5]  P. Bhartia,et al.  Validation of OMPS LP Ozone Profiles Version 2.0 with MLS, Ozone Sondes and Lidar Measurements , 2014 .

[6]  F. Hendrick,et al.  Description of algorithms for co-locating and comparing gridded model data with remote-sensing observations , 2014 .

[7]  Béatrice Josse,et al.  Tropospheric chemistry in the integrated forecasting system of ECMWF , 2014 .

[8]  Christian Hermans,et al.  Retrievals of formaldehyde from ground-based FTIR and MAX-DOAS observations at the Jungfraujoch station and comparisons with GEOS-Chem and IMAGES model simulations , 2014 .

[9]  F. Hendrick,et al.  A simple and versatile cloud-screening method for MAX-DOAS retrievals , 2014 .

[10]  Wolfgang Knorr,et al.  Global data set of biogenic VOC emissions calculated by the MEGAN model over the last 30 years , 2014 .

[11]  P. Bhartia,et al.  OMPS Limb Profiler instrument performance assessment , 2014 .

[12]  S. Solomon,et al.  Fundamental differences between Arctic and Antarctic ozone depletion , 2014, Proceedings of the National Academy of Sciences.

[13]  R. Hommel,et al.  Chemical ozone loss and ozone mini-hole event during the Arctic winter 2010/2011 as observed by SCIAMACHY and GOME-2 , 2014 .

[14]  Philippe Xu,et al.  Atmospheric Chemistry and Physics Measuring the Antarctic Ozone Hole with the New Ozone Mapping and Profiler Suite (omps) , 2022 .

[15]  Dario Papale,et al.  Natural land carbon dioxide exchanges in the ECMWF integrated forecasting system: Implementation and offline validation , 2013 .

[16]  S. Strahan,et al.  The contributions of chemistry and transport to low arctic ozone in March 2011 derived from Aura MLS observations , 2013 .

[17]  R. Ménard,et al.  Technical Note: Spectral representation of spatial correlations in variational assimilation with grid point models and application to the belgian assimilation system for chemical observations (BASCOE) , 2012 .

[18]  Chih-Chung Chang,et al.  Exploring the missing source of glyoxal (CHOCHO) over China , 2012 .

[19]  Keywan Riahi,et al.  Evolution of anthropogenic and biomass burning emissions of air pollutants at global and regional scales during the 1980–2010 period , 2011 .

[20]  M. Razinger,et al.  Biomass burning emissions estimated with a global fire assimilation system based on observed fire radiative power , 2011 .

[21]  Andreas Hilboll,et al.  An improved NO 2 retrieval for the GOME-2 satellite instrument , 2011 .

[22]  Henk Eskes,et al.  Multi sensor reanalysis of total ozone , 2010 .

[23]  John P. Burrows,et al.  GOME-2 observations of oxygenated VOCs: what can we learn from the ratio glyoxal to formaldehyde on a global scale? , 2010 .

[24]  W. Lahoz,et al.  The 2009 stratospheric major warming described from synergistic use of BASCOE water vapour analyses and MLS observations , 2010 .

[25]  Peter Bergamaschi,et al.  The global chemistry transport model TM5: description and evaluation of the tropospheric chemistry version 3.0 , 2010 .

[26]  Merritt N. Deeter,et al.  The MOPITT version 4 CO product: Algorithm enhancements, validation, and long‐term stability , 2010 .

[27]  J. Schwinger,et al.  Chemical state estimation for the middle atmosphere by four‐dimensional variational data assimilation: System configuration , 2010 .

[28]  J. F. Meirink,et al.  Inverse Modeling of Global and Regional CH4 Emissions Using SCIAMACHY Satellite Retrievals , 2009 .

[29]  D. Dee,et al.  Variational bias correction of satellite radiance data in the ERA‐Interim reanalysis , 2009 .

[30]  Simon Chabrillat,et al.  4D-Var assimilation of MIPAS chemical observations: ozone and nitrogen dioxide analyses , 2008 .

[31]  Merritt N. Deeter,et al.  Measurements of Pollution In The Troposphere (MOPITT) validation through 2006 , 2008 .

[32]  A. Thompson,et al.  Atmospheric comparison of electrochemical cell ozonesondes from different manufacturers, and with different cathode solution strengths: The Balloon Experiment on Standards for Ozonesondes , 2008 .

[33]  B. T. Marshall,et al.  Validation of ozone measurements from the Atmospheric Chemistry Experiment (ACE) , 2008 .

[34]  A. Thompson,et al.  Assessment of the performance of ECC‐ozonesondes under quasi‐flight conditions in the environmental simulation chamber: Insights from the Juelich Ozone Sonde Intercomparison Experiment (JOSIE) , 2007 .

[35]  Daniel Cariolle,et al.  A revised linear ozone photochemistry parameterization for use in transport and general circulation models: multi-annual simulations , 2007 .

[36]  J. Burrows,et al.  Simultaneous global observations of glyoxal and formaldehyde from space , 2006 .

[37]  J. Burrows,et al.  Increase in tropospheric nitrogen dioxide over China observed from space , 2005, Nature.

[38]  Merritt N. Deeter,et al.  Vertical resolution and information content of CO profiles retrieved by MOPITT , 2004 .

[39]  K. Taylor Summarizing multiple aspects of model performance in a single diagram , 2001 .

[40]  A. Smirnov,et al.  AERONET-a federated instrument network and data archive for aerosol Characterization , 1998 .

[41]  Greet Janssens-Maenhout,et al.  EDGAR-HTAP: A harmonized gridded air pollution emission dataset based on national inventories , 2012 .

[42]  A. J. Simmons,et al.  Aerosol analysis and forecast in the ECMWF Integrated Forecast System : Data assimilation , 2008 .