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The Greenhouse Gas Climate Change Initiative (GHG-CCI): comparative validation of GHG-CCI SCIAMACHY/ENVISAT and TANSO-FTS/GOSAT CO2 and CH4 retrieval algorithm products with measurements from the TCCON

Journal Article


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Abstract


  • Column-averaged dry-air mole fractions of carbon dioxide and methane have been retrieved from spectra acquired by the TANSO-FTS (Thermal And Near-infrared Sensor for carbon Observations-Fourier Transform Spectrometer) and SCIAMACHY (Scanning Imaging Absorption Spectrometer for Atmospheric Cartography) instruments on board GOSAT (Greenhouse gases Observing SATellite) and ENVISAT (ENVIronmental SATellite), respectively, using a range of European retrieval algorithms. These retrievals have been compared with data from ground-based high-resolution Fourier transform spectrometers (FTSs) from the Total Carbon Column Observing Network (TCCON). The participating algorithms are the weighting function modified differential optical absorption spectroscopy (DOAS) algorithm (WFMD, University of Bremen), the Bremen optimal estimation DOAS algorithm (BESD, University of Bremen), the iterative maximum a posteriori DOAS (IMAP, Jet Propulsion Laboratory (JPL) and Netherlands Institute for Space Research algorithm (SRON)), the proxy and full-physics versions of SRON's RemoTeC algorithm (SRPR and SRFP, respectively) and the proxy and full-physics versions of the University of Leicester's adaptation of the OCO (Orbiting Carbon Observatory) algorithm (OCPR and OCFP, respectively). The goal of this algorithm inter-comparison was to identify strengths and weaknesses of the various so-called round- robin data sets generated with the various algorithms so as to determine which of the competing algorithms would proceed to the next round of the European Space Agency's (ESA) Greenhouse Gas Climate Change Initiative (GHG-CCI) project, which is the generation of the so-called Climate Research Data Package (CRDP), which is the first version of the Essential Climate Variable (ECV) "greenhouse gases" (GHGs).

    For XCO2, all algorithms reach the precision requirements for inverse modelling (< 8 ppm), with only WFMD having a lower precision (4.7 ppm) than the other algorithm products (2.4–2.5 ppm). When looking at the seasonal relative accuracy (SRA, variability of the bias in space and time), none of the algorithms have reached the demanding < 0.5 ppm threshold.

    For XCH4, the precision for both SCIAMACHY products (50.2 ppb for IMAP and 76.4 ppb for WFMD) fails to meet the < 34 ppb threshold for inverse modelling, but note that this work focusses on the period after the 2005 SCIAMACHY detector degradation. The GOSAT XCH4 precision ranges between 18.1 and 14.0 ppb. Looking at the SRA, all GOSAT algorithm products reach the < 10 ppm threshold (values ranging between 5.4 and 6.2 ppb). For SCIAMACHY, IMAP and WFMD have a SRA of 17.2 and 10.5 ppb, respectively.

UOW Authors


  •   Dils, B (external author)
  •   Buchwitz, M (external author)
  •   Reuter, Markus (external author)
  •   Schneising, O (external author)
  •   Boesch, Hartmut (external author)
  •   Parker, Robert J. (external author)
  •   Guerlet, Sandrine (external author)
  •   Aben, Ilse (external author)
  •   Blumenstock, Thomas (external author)
  •   Burrows, J P. (external author)
  •   Butz, Andre (external author)
  •   Deutscher, Nicholas
  •   Frankenberg, Christian (external author)
  •   Hase, Frank (external author)
  •   Hasekamp, Otto (external author)
  •   Heymann, J (external author)
  •   de Maziere, M (external author)
  •   Notholt, Justus (external author)
  •   Sussmann, Ralf (external author)
  •   Warneke, Thorsten (external author)
  •   Griffith, David
  •   Sherlock, Vanessa (external author)
  •   Wunch, Debra (external author)

Publication Date


  • 2014

Citation


  • Dils, B., Buchwitz, M., Reuter, M., Schneising, O., Boesch, H., Parker, R., Guerlet, S., Aben, I., Blumenstock, T., Burrows, J. P., Butz, A., Deutscher, N. M., Frankenberg, C., Hase, F., Hasekamp, O. P., Heymann, J., De Maziere, M., Notholt, J., Sussmann, R., Warneke, T., Griffith, D., Sherlock, V. & Wunch, D. (2014). The Greenhouse Gas Climate Change Initiative (GHG-CCI): comparative validation of GHG-CCI SCIAMACHY/ENVISAT and TANSO-FTS/GOSAT CO2 and CH4 retrieval algorithm products with measurements from the TCCON. Atmospheric Measurement Techniques, 7 (6), 1723-1744.

Scopus Eid


  • 2-s2.0-84902440911

Ro Full-text Url


  • http://ro.uow.edu.au/cgi/viewcontent.cgi?article=3093&context=smhpapers

Ro Metadata Url


  • http://ro.uow.edu.au/smhpapers/2075

Has Global Citation Frequency


Number Of Pages


  • 21

Start Page


  • 1723

End Page


  • 1744

Volume


  • 7

Issue


  • 6

Place Of Publication


  • Germany

Abstract


  • Column-averaged dry-air mole fractions of carbon dioxide and methane have been retrieved from spectra acquired by the TANSO-FTS (Thermal And Near-infrared Sensor for carbon Observations-Fourier Transform Spectrometer) and SCIAMACHY (Scanning Imaging Absorption Spectrometer for Atmospheric Cartography) instruments on board GOSAT (Greenhouse gases Observing SATellite) and ENVISAT (ENVIronmental SATellite), respectively, using a range of European retrieval algorithms. These retrievals have been compared with data from ground-based high-resolution Fourier transform spectrometers (FTSs) from the Total Carbon Column Observing Network (TCCON). The participating algorithms are the weighting function modified differential optical absorption spectroscopy (DOAS) algorithm (WFMD, University of Bremen), the Bremen optimal estimation DOAS algorithm (BESD, University of Bremen), the iterative maximum a posteriori DOAS (IMAP, Jet Propulsion Laboratory (JPL) and Netherlands Institute for Space Research algorithm (SRON)), the proxy and full-physics versions of SRON's RemoTeC algorithm (SRPR and SRFP, respectively) and the proxy and full-physics versions of the University of Leicester's adaptation of the OCO (Orbiting Carbon Observatory) algorithm (OCPR and OCFP, respectively). The goal of this algorithm inter-comparison was to identify strengths and weaknesses of the various so-called round- robin data sets generated with the various algorithms so as to determine which of the competing algorithms would proceed to the next round of the European Space Agency's (ESA) Greenhouse Gas Climate Change Initiative (GHG-CCI) project, which is the generation of the so-called Climate Research Data Package (CRDP), which is the first version of the Essential Climate Variable (ECV) "greenhouse gases" (GHGs).

    For XCO2, all algorithms reach the precision requirements for inverse modelling (< 8 ppm), with only WFMD having a lower precision (4.7 ppm) than the other algorithm products (2.4–2.5 ppm). When looking at the seasonal relative accuracy (SRA, variability of the bias in space and time), none of the algorithms have reached the demanding < 0.5 ppm threshold.

    For XCH4, the precision for both SCIAMACHY products (50.2 ppb for IMAP and 76.4 ppb for WFMD) fails to meet the < 34 ppb threshold for inverse modelling, but note that this work focusses on the period after the 2005 SCIAMACHY detector degradation. The GOSAT XCH4 precision ranges between 18.1 and 14.0 ppb. Looking at the SRA, all GOSAT algorithm products reach the < 10 ppm threshold (values ranging between 5.4 and 6.2 ppb). For SCIAMACHY, IMAP and WFMD have a SRA of 17.2 and 10.5 ppb, respectively.

UOW Authors


  •   Dils, B (external author)
  •   Buchwitz, M (external author)
  •   Reuter, Markus (external author)
  •   Schneising, O (external author)
  •   Boesch, Hartmut (external author)
  •   Parker, Robert J. (external author)
  •   Guerlet, Sandrine (external author)
  •   Aben, Ilse (external author)
  •   Blumenstock, Thomas (external author)
  •   Burrows, J P. (external author)
  •   Butz, Andre (external author)
  •   Deutscher, Nicholas
  •   Frankenberg, Christian (external author)
  •   Hase, Frank (external author)
  •   Hasekamp, Otto (external author)
  •   Heymann, J (external author)
  •   de Maziere, M (external author)
  •   Notholt, Justus (external author)
  •   Sussmann, Ralf (external author)
  •   Warneke, Thorsten (external author)
  •   Griffith, David
  •   Sherlock, Vanessa (external author)
  •   Wunch, Debra (external author)

Publication Date


  • 2014

Citation


  • Dils, B., Buchwitz, M., Reuter, M., Schneising, O., Boesch, H., Parker, R., Guerlet, S., Aben, I., Blumenstock, T., Burrows, J. P., Butz, A., Deutscher, N. M., Frankenberg, C., Hase, F., Hasekamp, O. P., Heymann, J., De Maziere, M., Notholt, J., Sussmann, R., Warneke, T., Griffith, D., Sherlock, V. & Wunch, D. (2014). The Greenhouse Gas Climate Change Initiative (GHG-CCI): comparative validation of GHG-CCI SCIAMACHY/ENVISAT and TANSO-FTS/GOSAT CO2 and CH4 retrieval algorithm products with measurements from the TCCON. Atmospheric Measurement Techniques, 7 (6), 1723-1744.

Scopus Eid


  • 2-s2.0-84902440911

Ro Full-text Url


  • http://ro.uow.edu.au/cgi/viewcontent.cgi?article=3093&context=smhpapers

Ro Metadata Url


  • http://ro.uow.edu.au/smhpapers/2075

Has Global Citation Frequency


Number Of Pages


  • 21

Start Page


  • 1723

End Page


  • 1744

Volume


  • 7

Issue


  • 6

Place Of Publication


  • Germany