Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations

We compare the atmospheric column-averaged dry-air mole fractions of carbon dioxide (XCO2) and methane (XCH4) measured with a pair of COllaborative Carbon Column Observing Network (COCCON) spectrometers at Kiruna and Sodankylä (boreal areas). We compare model data provided by the Copernicus Atmosphe...

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Published in:Atmospheric Measurement Techniques
Main Authors: Tu, Qiansi, Hase, Frank, Blumenstock, Thomas, Kivi, Rigel, Heikkinen, Pauli, Sha, Mahesh Kumar, Raffalski, Uwe, Landgraf, Jochen, Lorente, Alba, Borsdorff, Tobias, Chen, Huilin, Dietrich, Florian, Chen, Jia
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2020
Subjects:
article
Verlagsveröffentlichung
Kiruna
Sodankylä
Online Access:https://doi.org/10.5194/amt-13-4751-2020
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https://amt.copernicus.org/articles/13/4751/2020/amt-13-4751-2020.pdf
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collection Niedersächsisches Online-Archiv NOA
op_collection_id ftnonlinearchiv
language English
topic article
Verlagsveröffentlichung
spellingShingle article
Verlagsveröffentlichung
Tu, Qiansi
Hase, Frank
Blumenstock, Thomas
Kivi, Rigel
Heikkinen, Pauli
Sha, Mahesh Kumar
Raffalski, Uwe
Landgraf, Jochen
Lorente, Alba
Borsdorff, Tobias
Chen, Huilin
Dietrich, Florian
Chen, Jia
Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations
topic_facet article
Verlagsveröffentlichung
description We compare the atmospheric column-averaged dry-air mole fractions of carbon dioxide (XCO2) and methane (XCH4) measured with a pair of COllaborative Carbon Column Observing Network (COCCON) spectrometers at Kiruna and Sodankylä (boreal areas). We compare model data provided by the Copernicus Atmosphere Monitoring Service (CAMS) between 2017 and 2019 with XCH4 data from the recently launched Sentinel-5 Precursor (S5P) satellite between 2018 and 2019. In addition, measured and modeled gradients of XCO2 and XCH4 (ΔXCO2 and ΔXCH4) on regional scales are investigated. Both sites show a similar and very good correlation between COCCON retrievals and the modeled CAMS XCO2 data, while CAMS data are biased high with respect to COCCON by 3.72 ppm (±1.80 ppm) in Kiruna and 3.46 ppm (±1.73 ppm) in Sodankylä on average. For XCH4, CAMS values are higher than the COCCON observations by 0.33 ppb (±11.93 ppb) in Kiruna and 7.39 ppb (±10.92 ppb) in Sodankylä. In contrast, the S5P satellite generally measures lower atmospheric XCH4 than the COCCON spectrometers, with a mean difference of 9.69 ppb (±20.51 ppb) in Kiruna and 3.36 ppb (±17.05 ppb) in Sodankylä. We compare the gradients of XCO2 and XCH4 (ΔXCO2 and ΔXCH4) between Kiruna and Sodankylä derived from CAMS analysis and COCCON and S5P measurements to study the capability of detecting sources and sinks on regional scales. The correlations in ΔXCO2 and ΔXCH4 between the different datasets are generally smaller than the correlations in XCO2 and XCH4 between the datasets at either site. The ΔXCO2 values predicted by CAMS are generally higher than those observed with COCCON with a slope of 0.51. The ΔXCH4 values predicted by CAMS are mostly higher than those observed with COCCON with a slope of 0.65, covering a larger dataset than the comparison between S5P and COCCON. When comparing CAMS ΔXCH4 with COCCON ΔXCH4 only in S5P overpass days (slope = 0.53), the correlation is close to that between S5P and COCCON (slope = 0.51). CAMS, COCCON, and S5P predict gradients in reasonable agreement. However, the small number of observations coinciding with S5P limits our ability to verify the performance of this spaceborne sensor. We detect no significant impact of ground albedo and viewing zenith angle on the S5P results. Both sites show similar situations with the average ratios of XCH4 (S5P/COCCON) of 0.9949±0.0118 in Kiruna and 0.9953±0.0089 in Sodankylä. Overall, the results indicate that the COCCON instruments have the capability of measuring greenhouse gas (GHG) gradients on regional scales, and observations performed with the portable spectrometers can contribute to inferring sources and sinks and to validating spaceborne greenhouse gas sensors. To our knowledge, this is the first published study using COCCON spectrometers for the validation of XCH4 measurements collected by S5P.
format Article in Journal/Newspaper
author Tu, Qiansi
Hase, Frank
Blumenstock, Thomas
Kivi, Rigel
Heikkinen, Pauli
Sha, Mahesh Kumar
Raffalski, Uwe
Landgraf, Jochen
Lorente, Alba
Borsdorff, Tobias
Chen, Huilin
Dietrich, Florian
Chen, Jia
author_facet Tu, Qiansi
Hase, Frank
Blumenstock, Thomas
Kivi, Rigel
Heikkinen, Pauli
Sha, Mahesh Kumar
Raffalski, Uwe
Landgraf, Jochen
Lorente, Alba
Borsdorff, Tobias
Chen, Huilin
Dietrich, Florian
Chen, Jia
author_sort Tu, Qiansi
title Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations
title_short Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations
title_full Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations
title_fullStr Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations
title_full_unstemmed Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations
title_sort intercomparison of atmospheric co2 and ch4 abundances on regional scales in boreal areas using copernicus atmosphere monitoring service (cams) analysis, collaborative carbon column observing network (coccon) spectrometers, and sentinel-5 precursor satellite observations
publisher Copernicus Publications
publishDate 2020
url https://doi.org/10.5194/amt-13-4751-2020
https://noa.gwlb.de/receive/cop_mods_00053029
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00052682/amt-13-4751-2020.pdf
https://amt.copernicus.org/articles/13/4751/2020/amt-13-4751-2020.pdf
long_lat ENVELOPE(26.600,26.600,67.417,67.417)
geographic Kiruna
Sodankylä
geographic_facet Kiruna
Sodankylä
genre Kiruna
Sodankylä
genre_facet Kiruna
Sodankylä
op_relation Atmospheric Measurement Techniques -- http://www.bibliothek.uni-regensburg.de/ezeit/?2505596 -- http://www.atmospheric-measurement-techniques.net/ -- 1867-8548
https://doi.org/10.5194/amt-13-4751-2020
https://noa.gwlb.de/receive/cop_mods_00053029
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00052682/amt-13-4751-2020.pdf
https://amt.copernicus.org/articles/13/4751/2020/amt-13-4751-2020.pdf
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container_title Atmospheric Measurement Techniques
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spelling ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00053029 2023-05-15T17:04:08+02:00 Intercomparison of atmospheric CO2 and CH4 abundances on regional scales in boreal areas using Copernicus Atmosphere Monitoring Service (CAMS) analysis, COllaborative Carbon Column Observing Network (COCCON) spectrometers, and Sentinel-5 Precursor satellite observations Tu, Qiansi Hase, Frank Blumenstock, Thomas Kivi, Rigel Heikkinen, Pauli Sha, Mahesh Kumar Raffalski, Uwe Landgraf, Jochen Lorente, Alba Borsdorff, Tobias Chen, Huilin Dietrich, Florian Chen, Jia 2020-09 electronic https://doi.org/10.5194/amt-13-4751-2020 https://noa.gwlb.de/receive/cop_mods_00053029 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00052682/amt-13-4751-2020.pdf https://amt.copernicus.org/articles/13/4751/2020/amt-13-4751-2020.pdf eng eng Copernicus Publications Atmospheric Measurement Techniques -- http://www.bibliothek.uni-regensburg.de/ezeit/?2505596 -- http://www.atmospheric-measurement-techniques.net/ -- 1867-8548 https://doi.org/10.5194/amt-13-4751-2020 https://noa.gwlb.de/receive/cop_mods_00053029 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00052682/amt-13-4751-2020.pdf https://amt.copernicus.org/articles/13/4751/2020/amt-13-4751-2020.pdf https://creativecommons.org/licenses/by/4.0/ uneingeschränkt info:eu-repo/semantics/openAccess CC-BY article Verlagsveröffentlichung article Text doc-type:article 2020 ftnonlinearchiv https://doi.org/10.5194/amt-13-4751-2020 2022-02-08T22:35:40Z We compare the atmospheric column-averaged dry-air mole fractions of carbon dioxide (XCO2) and methane (XCH4) measured with a pair of COllaborative Carbon Column Observing Network (COCCON) spectrometers at Kiruna and Sodankylä (boreal areas). We compare model data provided by the Copernicus Atmosphere Monitoring Service (CAMS) between 2017 and 2019 with XCH4 data from the recently launched Sentinel-5 Precursor (S5P) satellite between 2018 and 2019. In addition, measured and modeled gradients of XCO2 and XCH4 (ΔXCO2 and ΔXCH4) on regional scales are investigated. Both sites show a similar and very good correlation between COCCON retrievals and the modeled CAMS XCO2 data, while CAMS data are biased high with respect to COCCON by 3.72 ppm (±1.80 ppm) in Kiruna and 3.46 ppm (±1.73 ppm) in Sodankylä on average. For XCH4, CAMS values are higher than the COCCON observations by 0.33 ppb (±11.93 ppb) in Kiruna and 7.39 ppb (±10.92 ppb) in Sodankylä. In contrast, the S5P satellite generally measures lower atmospheric XCH4 than the COCCON spectrometers, with a mean difference of 9.69 ppb (±20.51 ppb) in Kiruna and 3.36 ppb (±17.05 ppb) in Sodankylä. We compare the gradients of XCO2 and XCH4 (ΔXCO2 and ΔXCH4) between Kiruna and Sodankylä derived from CAMS analysis and COCCON and S5P measurements to study the capability of detecting sources and sinks on regional scales. The correlations in ΔXCO2 and ΔXCH4 between the different datasets are generally smaller than the correlations in XCO2 and XCH4 between the datasets at either site. The ΔXCO2 values predicted by CAMS are generally higher than those observed with COCCON with a slope of 0.51. The ΔXCH4 values predicted by CAMS are mostly higher than those observed with COCCON with a slope of 0.65, covering a larger dataset than the comparison between S5P and COCCON. When comparing CAMS ΔXCH4 with COCCON ΔXCH4 only in S5P overpass days (slope = 0.53), the correlation is close to that between S5P and COCCON (slope = 0.51). CAMS, COCCON, and S5P predict gradients in reasonable agreement. However, the small number of observations coinciding with S5P limits our ability to verify the performance of this spaceborne sensor. We detect no significant impact of ground albedo and viewing zenith angle on the S5P results. Both sites show similar situations with the average ratios of XCH4 (S5P/COCCON) of 0.9949±0.0118 in Kiruna and 0.9953±0.0089 in Sodankylä. Overall, the results indicate that the COCCON instruments have the capability of measuring greenhouse gas (GHG) gradients on regional scales, and observations performed with the portable spectrometers can contribute to inferring sources and sinks and to validating spaceborne greenhouse gas sensors. To our knowledge, this is the first published study using COCCON spectrometers for the validation of XCH4 measurements collected by S5P. Article in Journal/Newspaper Kiruna Sodankylä Niedersächsisches Online-Archiv NOA Kiruna Sodankylä ENVELOPE(26.600,26.600,67.417,67.417) Atmospheric Measurement Techniques 13 9 4751 4771

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