How is the ocean anthropogenic carbon reservoir filled?

About a quarter of the total anthropogenic CO2 emissions during the industrial era has been absorbed by the ocean. The rate limiting step for this uptake is the transport of the anthropogenic carbon (Cant) from the ocean mixed layer where it is absorbed to the interior ocean where it is stored. Whil...

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Bibliographic Details
Published in:Global Biogeochemical Cycles
Main Authors: Davila, Xabier, Gebbie, Geoffrey, Brakstad, Ailin, Lauvset, Siv K., McDonagh, Elaine L., Schwinger, Jörg, Olsen, Are
Format: Article in Journal/Newspaper
Language:English
Published: 2022
Subjects:
Southern Ocean
North Atlantic
Online Access:http://nora.nerc.ac.uk/id/eprint/532761/
https://nora.nerc.ac.uk/id/eprint/532761/1/Global%20Biogeochemical%20Cycles%20-%202022%20-%20Davila%20-%20How%20Is%20the%20Ocean%20Anthropogenic%20Carbon%20Reservoir%20Filled.pdf
https://doi.org/10.1029/2021GB007055
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Summary:About a quarter of the total anthropogenic CO2 emissions during the industrial era has been absorbed by the ocean. The rate limiting step for this uptake is the transport of the anthropogenic carbon (Cant) from the ocean mixed layer where it is absorbed to the interior ocean where it is stored. While it is generally known that deep water formation sites are important for vertical carbon transport, the exact magnitude of the fluxes across the base of the mixed layer in different regions is uncertain. Here, we determine where, when, and how much Cant has been injected across the mixed-layer base and into the interior ocean since the start of the industrialized era. We do this by combining a transport matrix derived from observations with a time-evolving boundary condition obtained from already published estimates of ocean Cant. Our results show that most of the Cant stored below the mixed layer are injected in the subtropics (40.1%) and the Southern Ocean (36.0%), while the Subpolar North Atlantic has the largest fluxes. The Subpolar North Atlantic is also the most important region for injecting Cant into the deep ocean with 81.6% of the Cant reaching depths greater than 1,000 m. The subtropics, on the other hand, have been the most efficient in transporting Cant across the mixed-layer base per volume of water ventilated. This study shows how the oceanic Cant uptake relies on vertical transports in a few oceanic regions and sheds light on the pathways that fill the ocean Cant reservoir.

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