Digital Amazon

registros encontrados: 152, page 1, total por página:

ESA CCI GOSAT OCFP CO2

0.70 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.62 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:04

ESA CCI GOSAT OCFP CO2

0.80 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:04

ESA CCI GOSAT OCFP CO2

0.72 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:07

ESA CCI GOSAT OCFP CO2

0.78 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:07

ESA CCI GOSAT OCFP CO2

0.70 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:01

ESA CCI GOSAT OCFP CO2

0.72 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:01

ESA CCI GOSAT OCFP CO2

0.70 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.67 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:04

ESA CCI GOSAT OCFP CO2

0.77 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:01

ESA CCI GOSAT OCFP CO2

0.64 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 17:58

ESA CCI GOSAT OCFP CO2

0.65 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.70 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:04

ESA CCI GOSAT OCFP CO2

0.68 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:07

ESA CCI GOSAT OCFP CO2

0.67 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 17:59

ESA CCI GOSAT OCFP CO2

0.57 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.58 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 17:59

ESA CCI GOSAT OCFP CO2

0.66 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 17:59

ESA CCI GOSAT OCFP CO2

0.73 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.62 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.71 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.66 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:07

ESA CCI GOSAT OCFP CO2

0.70 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:07

ESA CCI GOSAT OCFP CO2

0.77 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:01

ESA CCI GOSAT OCFP CO2

0.68 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 17:59

ESA CCI GOSAT OCFP CO2

0.71 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:01

ESA CCI GOSAT OCFP CO2

0.74 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 17:59

ESA CCI GOSAT OCFP CO2

0.61 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.70 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

ESA CCI GOSAT OCFP CO2

0.74 MB
LON: [-180,00 ; 180,00]
LAT: [-90,00 ; 90,00]

Descrição: The University of Leicester Full-Physics Retrieval Algorithm (UoL-FP) is an optical estimation retrieval algorithm for GOSAT. For the CO2 and CH4 Full Physics product, it utilises the O2-A absorption band along with the strong and weak CO2 and CH4 bands located at 1.6 and 2 um respectively to retrieve XCO2 and XCH4 (the column-average dry-air mole fraction of atmospheric CO2 and CH4). The explicit consideration of scattering by this approach reduces potential systematic biases due to clouds or aerosols. For the CH4 Proxy product, it utilises only the 1.6um CH4 and CO2 bands. The CO2 acts as a 'light path proxy' allowing the effective path length after adjustment due to scattering to be determined and hence compensated for. These data were produced at the University of Leicester in the frame of the ESA GHG CCI project

Instituição: University of Leicester

Fonte: GOSAT L1B version v210

Projeto: Climate Change Initiative - European Space Agency

Contato: Hartmut Boesch (hb100@le.ac.uk) hb100@le.ac.uk

Tipo: nc

Ano: 2021

Citação: http://www.esa-ghg-cci.org/ http://dx.doi.org/10.1029/2006JD007080 , http://dx.doi.org/10.1029/2006JD008336

Data de produção: 18 de Janeiro de 2021, 18:10

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ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2

ESA CCI GOSAT OCFP CO2