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Integration of in situ and satellite multi-platform data (estimation of carbon flux for trop. Atlantic).
Fourrier, Marine, Claustre, Hervé, Coppola, Laurent, Fiedler, Björn and Wimart-Rousseau, Cathy (2023) Integration of in situ and satellite multi-platform data (estimation of carbon flux for trop. Atlantic). . EuroSea Deliverable, D7.6 . EuroSea, 27 pp. DOI 10.3289/eurosea_d7.6.
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Abstract
This report presents the results of task 7.3 on “Quantification of improvements in carbon flux data for the tropical Atlantic based on the multi-platform and neural network approach”. To better constrain changes in the ocean’s capture and sequestration of CO2 emitted by human activities, in situ measurements are needed. Tropical regions are considered to be mostly sources of CO2 to the atmosphere due to specific circulation features, with large interannual variability mainly controlled by physical drivers (Padin et al., 2010). The tropical Atlantic is the second largest source, after the tropical Pacific, of CO2 to the atmosphere (Landschützer et al., 2014). However, it is not a homogeneous zone, as it is affected by many physical and biogeochemical processes that vary on many time scales and affect surrounding areas (Foltz et al., 2019). The Tropical Atlantic Observing System (TAOS) has progressed substantially over the past two decades. Still, many challenges and uncertainties remain to require further studies into the area’s role in terms of carbon fluxes (Foltz et al., 2019). Monitoring and sustained observations of surface oceanic CO2 are critical for understanding the fate of CO2 as it penetrates the ocean and during its sequestration at depth.
This deliverable relies on different observing platforms deployed specifically as part of the EuroSea project (a Saildrone, and 5 pH-equipped BGC-Argo floats) as well as on the platforms as part of the TAOS (CO2-equipped moorings, cruises, models, and data products). It also builds on the work done in D7.1 and D7.2 on the deployment and quality control of pH-equipped BGC-Argo floats and Saildrone data. Indeed, high-quality homogeneously calibrated carbonate variable measurements are mandatory to be able to compute air-sea CO2 fluxes at a basin scale from multiple observing platforms.
Document Type: | Report (Project Report) |
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Funder compliance: | info:eu-repo/grantAgreement/EC/H2020/862626 |
Keywords: | carbon flux, in situ measurements, CO2 capture, observing platforms, biogeochemical processes |
Research affiliation: | OceanRep > GEOMAR > FB2 Marine Biogeochemistry > FB2-CH Chemical Oceanography |
Publisher: | EuroSea |
Related URLs: | |
Projects: | EuroSea |
Date Deposited: | 19 Feb 2024 10:08 |
Last Modified: | 19 Feb 2024 13:40 |
URI: | https://oceanrep.geomar.de/id/eprint/59992 |
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