Carbon monoxide distributions from the IASI/METOP mission: evaluation with other space-borne remote sensors

Abstract. The Infrared Atmospheric Sounding Interferometer (IASI) onboard the MetOp satellite measures carbon monoxide (CO) on a global scale, twice a day. CO total columns and vertical profiles are retrieved in near real time from the nadir radiance spectra measured by the instrument in the thermal infrared (TIR) spectral range. This paper describes the measurement vertical sensitivity and provides a first assessment of the capabilities of IASI to measure CO distributions. On the global scale, 0.8 to 2.4 independent pieces of information are available for the retrieval. At mid latitudes, the information ranges between 1.5 and 2, which enables the lower and upper troposphere to be distinguished, especially when thermal contrast is significant. Global distributions of column CO are evaluated with correlative observations available from other nadir looking TIR missions currently in operation: the Measurements of Pollution in the Troposphere (MOPITT) onboard TERRA, the Atmospheric Infrared Sounder (AIRS) onboard AQUA and the Tropospheric Emission Spectrometer (TES) onboard AURA. The IASI CO columns are compared with MOPITT, AIRS and TES CO columns, adjusted with the a priori, for three different months: August 2008, November 2008 and February 2009. On average, total column discrepancies of about 7% are found between IASI and the three other sounders in the Northern Hemisphere and in the equatorial region. However when strong CO concentrations are present, such as during fire events, these discrepancies can climb as high as 17%. Instrument specifications of IASI versus other missions are also discussed.

[1]  S. Wofsy,et al.  Tropospheric chemistry: A global perspective , 1981 .

[2]  J. Drummond Novel correlation radiometer: the lengthmodulated radiometer. , 1989, Applied optics.

[3]  C. Rinsland,et al.  Spectroscopic study of the seasonal variation of carbon monoxide vertical distribution above Kitt Peak , 1995 .

[4]  Remote Sensing From Geostationary Orbit: GEO TROPSAT, a New Concept for Atmospheric Remote Sensing , 1997 .

[5]  D. Edwards,et al.  Retrieval of tropospheric carbon monoxide for the MOPITT experiment , 1998 .

[6]  P. M. Lang,et al.  Distributions and recent changes of carbon monoxide in the lower troposphere , 1998 .

[7]  Philip J. Rasch,et al.  MOZART, a global chemical transport model for ozone and related chemical tracers: 1. Model description , 1998 .

[8]  B. Connor,et al.  Intercomparison of remote sounding instruments , 1999 .

[9]  G. Braathen,et al.  NETWORK FOR THE DETECTION OF STRATOSPHERIC CHANGE , 1999 .

[10]  Clive D Rodgers,et al.  Inverse Methods for Atmospheric Sounding: Theory and Practice , 2000 .

[11]  Cathy Clerbaux,et al.  Retrieval of CO from nadir remote-sensing measurements in the infrared by use of four different inversion algorithms. , 2002, Applied optics.

[12]  J. Lamarque,et al.  Operational carbon monoxide retrieval algorithm and selected results for the MOPITT instrument , 2003 .

[13]  William L. Smith,et al.  AIRS/AMSU/HSB on the Aqua mission: design, science objectives, data products, and processing systems , 2003, IEEE Trans. Geosci. Remote. Sens..

[14]  Christopher D. Barnet,et al.  Retrieval of atmospheric and surface parameters from AIRS/AMSU/HSB data in the presence of clouds , 2003, IEEE Trans. Geosci. Remote. Sens..

[15]  EUMETSAT Am Kavalleriesand,et al.  THE OPERATIONAL IASI LEVEL 2 PROCESSOR , 2003 .

[16]  Jean-Pierre Cammas,et al.  c ○ European Geosciences Union 2003 Atmospheric Chemistry and Physics Discussions , 2003 .

[17]  J. Lamarque,et al.  Validation of Measurements of Pollution in the Troposphere (MOPITT) CO retrievals with aircraft in situ profiles , 2004 .

[18]  Eric S. Kasischke,et al.  A Quantitative Assessment of the 1998 Carbon Monoxide Emission Anomaly in the Northern Hemisphere Based on Total Column and Surface Concentration Measurements , 2004 .

[19]  J. Lamarque,et al.  Observations of carbon monoxide and aerosols from the Terra satellite: Northern Hemisphere variability , 2004 .

[20]  S. A. Clough,et al.  Operational trace gas retrieval algorithm for the Infrared Atmospheric Sounding Interferometer , 2004 .

[21]  M. Buchwitz,et al.  Global carbon monoxide as retrieved from SCIAMACHY by WFM-DOAS , 2004 .

[22]  P. Duchatelet,et al.  Increased Northern Hemispheric carbon monoxide burden in the troposphere in 2002 and 2003 detected from the ground and from space , 2004 .

[23]  Ulrich Platt,et al.  Retrieval of CO from SCIAMACHY onboard ENVISAT : detection of strongly polluted areas and seasonal patterns in global CO abundances , 2017 .

[24]  A. Stohl,et al.  Extreme CO concentrations in the upper troposphere over northeast Asia in June 2003 from the in situ MOZAIC aircraft data , 2005 .

[25]  Peter Schlüssel,et al.  The operational IASI Level 2 processor , 2005 .

[26]  Cathy Clerbaux,et al.  Retrieval and characterization of ozone vertical profiles from a thermal infrared nadir sounder , 2005 .

[27]  J. Warner,et al.  Daily global maps of carbon monoxide from NASA's Atmospheric Infrared Sounder , 2005 .

[28]  P. Bernath,et al.  Carbon monoxide distribution from the ACE‐FTS solar occultation measurements , 2005 .

[29]  E. Mahieu,et al.  Line narrowing effect on the retrieval of HF and HCl vertical profiles from ground-based FTIR measurements , 2005 .

[30]  G. Berthet,et al.  Intercomparisons of trace gases profiles from the Odin/SMR and Aura/MLS limb sounders , 2006 .

[31]  David M. Rider,et al.  Nadir measurements of carbon monoxide distributions by the Tropospheric Emission Spectrometer instrument onboard the Aura Spacecraft: Overview of analysis approach and examples of initial results , 2006 .

[32]  J. F. Meirink,et al.  Quantitative analysis of SCIAMACHY carbon monoxide total column measurements , 2006 .

[33]  David M. Rider,et al.  TES level 1 algorithms: interferogram processing, geolocation, radiometric, and spectral calibration , 2006, IEEE Transactions on Geoscience and Remote Sensing.

[34]  Reinhard Beer,et al.  Tropospheric emission spectrometer: retrieval method and error analysis , 2006, IEEE Transactions on Geoscience and Remote Sensing.

[35]  Reinhard Beer,et al.  TES on the aura mission: scientific objectives, measurements, and analysis overview , 2006, IEEE Transactions on Geoscience and Remote Sensing.

[36]  Christopher D. Barnet,et al.  A comparison of satellite tropospheric carbon monoxide measurements from AIRS and MOPITT during INTEX‐A , 2007 .

[37]  Annual variation of strato-mesospheric carbon monoxide measured by ground-based Fourier transform infrared spectrometry , 2007 .

[38]  Manuel López-Puertas,et al.  Analysis of nonlocal thermodynamic equilibrium CO 4.7 μm fundamental, isotopic, and hot band emissions measured by the Michelson Interferometer for Passive Atmospheric Sounding on Envisat , 2007 .

[39]  Merritt N. Deeter,et al.  Sensitivity of MOPITT observations to carbon monoxide in the lower troposphere , 2007 .

[40]  J. F. Meirink,et al.  Scanning Imaging Absorption Spectrometer for Atmospheric Chartography carbon monoxide total columns: Statistical evaluation and comparison with chemistry transport model results , 2007 .

[41]  M. Buchwitz,et al.  Three years of global carbon monoxide from SCIAMACHY: comparison with MOPITT and first results related to the detection of enhanced CO over cities , 2007 .

[42]  Lieven Clarisse,et al.  Monitoring of atmospheric composition using the thermal infrared IASI/METOP sounder , 2009 .

[43]  T. Borsdorff,et al.  CO measurements from the ACE-FTS satellite instrument: data analysis and validation using ground-based, airborne and spaceborne observations , 2007 .

[44]  D. Blumstein,et al.  The IASI/MetOp1 Mission: First observations and highlights of its potential contribution to GMES2 , 2007 .

[45]  Nathaniel J. Livesey,et al.  Validation of middle‐atmosphere carbon monoxide retrievals from the Microwave Limb Sounder on Aura , 2007 .

[46]  Glenn S. Diskin,et al.  TES carbon monoxide validation with DACOM aircraft measurements during INTEX‐B 2006 , 2007 .

[47]  Annmarie Eldering,et al.  Comparison of carbon monoxide measurements by TES and MOPITT: Influence of a priori data and instrument characteristics on nadir atmospheric species retrievals , 2007 .

[48]  John C. Gille,et al.  Measurements of Pollution in the Troposphere (MOPITT) validation exercises during summer 2004 field campaigns over North America , 2007 .

[49]  Eric S. Maddy,et al.  AIRS views transport from 12 to 22 July 2004 Alaskan/Canadian fires: Correlation of AIRS CO and MODIS AOD with forward trajectories and comparison of AIRS CO retrievals with DC‐8 in situ measurements during INTEX‐A/ICARTT , 2008 .

[50]  Bryan N. Duncan,et al.  Model analysis of the factors regulating the trends and variability of carbon monoxide between 1988 and 1997 , 2008 .

[51]  Lance E. Christensen,et al.  Validation of Aura Microwave Limb Sounder O3 and CO observations in the upper troposphere and lower stratosphere , 2008 .

[52]  J. Lamarque,et al.  Carbon monoxide pollution from cities and urban areas observed by the Terra/MOPITT mission , 2008 .

[53]  Lieven Clarisse,et al.  Tracking and quantifying volcanic SO 2 with IASI, the September 2007 eruption at Jebel at Tair , 2008 .

[54]  William L. Smith,et al.  All weather IASI single field-of-view retrievals: case study – validation with JAIVEx data , 2008 .

[55]  Evgeny Grechko,et al.  Global AIRS and MOPITT CO measurements: Validation, comparison, and links to biomass burning variations and carbon cycle , 2008 .

[56]  S. Reimann,et al.  Our changing atmosphere: evidence based on long-term infrared solar observations at the Jungfraujoch since 1950. , 2008, The Science of the total environment.

[57]  David P. Edwards,et al.  CO emission and export from Asia: an analysis combining complementary satellite measurements (MOPITT, SCIAMACHY and ACE-FTS) with global modeling , 2008 .

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

[59]  Susan S. Kulawik,et al.  Impact of nonlinearity on changing the a priori of trace gas profile estimates from the Tropospheric Emission Spectrometer (TES) , 2008 .

[60]  P. Bernath,et al.  Tropospheric emission spectrometer (TES) and atmospheric chemistry experiment (ACE) measurements of tropospheric chemistry in tropical southeast Asia during a moderate El Niño in 2006 , 2008 .

[61]  Merritt N. Deeter,et al.  CO retrievals based on MOPITT near-infrared observations , 2009 .

[62]  Cathy Clerbaux,et al.  Measurements of total and tropospheric ozone from IASI: comparison with correlative satellite, ground-based and ozonesonde observations , 2009 .

[63]  Lieven Clarisse,et al.  IASI measurements of reactive trace species in biomass burning plumes , 2009 .

[64]  Cathy Clerbaux,et al.  Tracking the emission and transport of pollution from wildfires using the IASI CO retrievals: analysis of the summer 2007 Greek fires , 2009 .

[65]  Gail E. Bingham,et al.  IASI temperature and water vapor retrievals – error assessment and validation , 2009 .

[66]  Lieven Clarisse,et al.  Characterization of methane retrievals from the IASI space-borne sounder , 2009 .

[67]  Cathy Clerbaux,et al.  Global distributions of nitric acid from IASI/MetOP measurements , 2009 .