Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis

The calculation of the air–water CO 2 exchange ( F CO 2 ) in the ocean not only depends on the gradient in CO 2 partial pressure at the air–water interface but also on the parameterization of the gas exchange transfer velocity ( k ) and the choice of wind product. Here, we present regional and globa...

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Published in:Biogeosciences
Main Authors: Roobaert, A., Laruelle, G.G., Landschützer, P., Regnier, P.
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
Southern Ocean
Pacific
North Atlantic
Online Access:https://www.vliz.be/imisdocs/publications/330059.pdf
id ftvliz:oai:oma.vliz.be:311594
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spelling ftvliz:oai:oma.vliz.be:311594 2023-05-15T17:37:05+02:00 Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis Roobaert, A. Laruelle, G.G. Landschützer, P. Regnier, P. 2018 application/pdf https://www.vliz.be/imisdocs/publications/330059.pdf en eng info:eu-repo/semantics/altIdentifier/wos/000428391600001 info:eu-repo/semantics/altIdentifier/doi/doi.org/10.5194/bg-15-1701-2018 https://www.vliz.be/imisdocs/publications/330059.pdf info:eu-repo/semantics/openAccess %3Ci%3EBiogeosciences+15%286%29%3C%2Fi%3E%3A+1701-1720.+%3Ca+href%3D%22https%3A%2F%2Fdx.doi.org%2F10.5194%2Fbg-15-1701-2018%22+target%3D%22_blank%22%3Ehttps%3A%2F%2Fdx.doi.org%2F10.5194%2Fbg-15-1701-2018%3C%2Fa%3E info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2018 ftvliz https://doi.org/10.5194/bg-15-1701-2018 2022-05-01T11:18:38Z The calculation of the air–water CO 2 exchange ( F CO 2 ) in the ocean not only depends on the gradient in CO 2 partial pressure at the air–water interface but also on the parameterization of the gas exchange transfer velocity ( k ) and the choice of wind product. Here, we present regional and global-scale quantifications of the uncertainty in F CO 2 induced by several widely used k formulations and four wind speed data products (CCMP, ERA, NCEP1 and NCEP2). The analysis is performed at a 1° × 1° resolution using the sea surface p CO 2 climatology generated by Landschützer et al.(2015a) for the 1991–2011 period, while the regional assessment relies on the segmentation proposed by the Regional Carbon Cycle Assessment and Processes (RECCAP) project. First, we use k formulations derived from the global 14 C inventory relying on a quadratic relationship between k and wind speed ( k = c ⋅ U 10 2 Sweeney et al., 2007; Takahashi et al., 2009; Wanninkhof, 2014), where c is a calibration coefficient and U 10 is the wind speed measured 10 m above the surface. Our results show that the range of global F CO 2 , calculated with these k relationships, diverge by 12 % when using CCMP, ERA or NCEP1. Due to differences in the regional wind patterns, regional discrepancies in F CO 2 are more pronounced than global. These global and regional differences significantly increase when using NCEP2 or other k formulations which include earlier relationships (i.e., Wanninkhof, 1992; Wanninkhof et al., 2009) as well as numerous local and regional parameterizations derived experimentally. To minimize uncertainties associated with the choice of wind product, it is possible to recalculate the coefficient c globally (hereafter called c ∗ ) for a given wind product and its spatio-temporal resolution, in order to match the last evaluation of the global k value. We thus performed these recalculations for each wind product at the resolution and time period of our study but the resulting global F CO 2 estimates still diverge by 10 %. These results also reveal that the Equatorial Pacific, the North Atlantic and the Southern Ocean are the regions in which the choice of wind product will most strongly affect the estimation of the F CO 2 , even when using c ∗ . Article in Journal/Newspaper North Atlantic Southern Ocean Flanders Marine Institute (VLIZ): Open Marine Archive (OMA) Southern Ocean Pacific Biogeosciences 15 6 1701 1720
institution Open Polar
collection Flanders Marine Institute (VLIZ): Open Marine Archive (OMA)
op_collection_id ftvliz
language English
description The calculation of the air–water CO 2 exchange ( F CO 2 ) in the ocean not only depends on the gradient in CO 2 partial pressure at the air–water interface but also on the parameterization of the gas exchange transfer velocity ( k ) and the choice of wind product. Here, we present regional and global-scale quantifications of the uncertainty in F CO 2 induced by several widely used k formulations and four wind speed data products (CCMP, ERA, NCEP1 and NCEP2). The analysis is performed at a 1° × 1° resolution using the sea surface p CO 2 climatology generated by Landschützer et al.(2015a) for the 1991–2011 period, while the regional assessment relies on the segmentation proposed by the Regional Carbon Cycle Assessment and Processes (RECCAP) project. First, we use k formulations derived from the global 14 C inventory relying on a quadratic relationship between k and wind speed ( k = c ⋅ U 10 2 Sweeney et al., 2007; Takahashi et al., 2009; Wanninkhof, 2014), where c is a calibration coefficient and U 10 is the wind speed measured 10 m above the surface. Our results show that the range of global F CO 2 , calculated with these k relationships, diverge by 12 % when using CCMP, ERA or NCEP1. Due to differences in the regional wind patterns, regional discrepancies in F CO 2 are more pronounced than global. These global and regional differences significantly increase when using NCEP2 or other k formulations which include earlier relationships (i.e., Wanninkhof, 1992; Wanninkhof et al., 2009) as well as numerous local and regional parameterizations derived experimentally. To minimize uncertainties associated with the choice of wind product, it is possible to recalculate the coefficient c globally (hereafter called c ∗ ) for a given wind product and its spatio-temporal resolution, in order to match the last evaluation of the global k value. We thus performed these recalculations for each wind product at the resolution and time period of our study but the resulting global F CO 2 estimates still diverge by 10 %. These results also reveal that the Equatorial Pacific, the North Atlantic and the Southern Ocean are the regions in which the choice of wind product will most strongly affect the estimation of the F CO 2 , even when using c ∗ .
format Article in Journal/Newspaper
author Roobaert, A.
Laruelle, G.G.
Landschützer, P.
Regnier, P.
spellingShingle Roobaert, A.
Laruelle, G.G.
Landschützer, P.
Regnier, P.
Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis
author_facet Roobaert, A.
Laruelle, G.G.
Landschützer, P.
Regnier, P.
author_sort Roobaert, A.
title Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis
title_short Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis
title_full Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis
title_fullStr Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis
title_full_unstemmed Uncertainty in the global oceanic CO 2 uptake induced by wind forcing: quantification and spatial analysis
title_sort uncertainty in the global oceanic co 2 uptake induced by wind forcing: quantification and spatial analysis
publishDate 2018
url https://www.vliz.be/imisdocs/publications/330059.pdf
geographic Southern Ocean
Pacific
geographic_facet Southern Ocean
Pacific
genre North Atlantic
Southern Ocean
genre_facet North Atlantic
Southern Ocean
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info:eu-repo/semantics/altIdentifier/doi/doi.org/10.5194/bg-15-1701-2018
https://www.vliz.be/imisdocs/publications/330059.pdf
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.5194/bg-15-1701-2018
container_title Biogeosciences
container_volume 15
container_issue 6
container_start_page 1701
op_container_end_page 1720
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