Atmospheric pCO2 Response to Stimulated Organic Carbon Export: Sensitivity Patterns and Timescales

Abstract The ocean's organic carbon export is a key control on atmospheric pCO2 and stimulating this export could potentially mitigate climate change. We use a data‐constrained model to calculate the sensitivity of atmospheric pCO2 to local changes in export using an adjoint approach. A perpetu...

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Bibliographic Details
Published in:Geophysical Research Letters
Main Authors: Mark Holzer, Tim DeVries, Benoît Pasquier
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2024
Subjects:
atmospheric CO2
biological pump
carbon dioxide removal (CDR)
linear sensitivity
stimulated carbon export
adjoint methods
Geophysics. Cosmic physics
QC801-809
Antarc*
Antarctic
Southern Ocean
Online Access:https://doi.org/10.1029/2024GL108462
https://doaj.org/article/87168d5d92f54ec0ade9f8619ebe976e
Description
Summary:Abstract The ocean's organic carbon export is a key control on atmospheric pCO2 and stimulating this export could potentially mitigate climate change. We use a data‐constrained model to calculate the sensitivity of atmospheric pCO2 to local changes in export using an adjoint approach. A perpetual enhancement of the biological pump's export by 0.1 PgC/yr could achieve a roughly 1% reduction in pCO2 at average sensitivity. The sensitivity varies roughly 5‐fold across different ocean regions and is proportional to the difference between the mean sequestration time τseq of regenerated carbon and the response time τpre of performed carbon, which is the reduction in the preformed carbon inventory per unit increase in local export production. Air‐sea CO2 disequilibrium modulates the geographic pattern of τpre, causing particularly high sensitivities (2–3 times the global mean) in the Antarctic Divergence region of the Southern Ocean.

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