Litcius/Paper detail

The Influence of Air‐Sea CO<sub>2</sub> Disequilibrium on Carbon Sequestration by the Ocean's Biological Pump

Michael Nowicki, Tim DeVries, David A. Siegel

2024Global Biogeochemical Cycles21 citationsDOIOpen Access PDF

Abstract

Abstract The ocean's biological carbon pump (BCP) affects the Earth's climate by sequestering CO 2 away from the atmosphere for decades to millennia. One primary control on the amount of carbon sequestered by the biological pump is air‐sea CO 2 disequilibrium, which is controlled by the rate of air‐sea CO 2 exchange and the residence time of CO 2 in surface waters. Here, we use a data‐assimilated model of the soft tissue BCP to quantify carbon sequestration inventories and time scales from remineralization in the water column to equilibration with the atmosphere. We find that air‐sea CO 2 disequilibrium enhances the global biogenic carbon inventory by ∼35% and its sequestration time by ∼70 years compared to identical calculations made assuming instantaneous air‐sea CO 2 exchange. Locally, the greatest enhancement occurs in the subpolar Southern Ocean, where air‐sea disequilibrium increases sequestration times by up to 600 years and the biogenic dissolved inorganic carbon inventory by &gt;100% in the upper ocean. Contrastingly, in deep‐water formation regions of the North Atlantic and Antarctic margins, where biological production creates undersaturated surface waters which are subducted before fully equilibrating with the atmosphere, air‐sea CO 2 disequilibrium decreases the depth‐integrated sequestration inventory by up to ∼150%. The global enhancement of carbon sequestration by air‐sea disequilibrium is particularly important for carbon respired in deep waters that upwell in the Southern Ocean. These results highlight the importance of accounting for air‐sea CO 2 disequilibrium when evaluating carbon sequestration by the biological pump and for assessing the efficacy of ocean‐based CO 2 removal methods.

Topics & Concepts

DisequilibriumBiological pumpCarbon sequestrationOceanographyEnvironmental scienceDeep seaCarbon dioxideCarbon fibersCoccolithSeawaterGeologyEarth scienceEnvironmental chemistryCarbon cycleCarbonateChemistryEcologyEcosystemBiologyMaterials scienceMedicineOrganic chemistryComposite materialComposite numberOphthalmologyMarine and coastal ecosystemsOcean Acidification Effects and ResponsesMethane Hydrates and Related Phenomena