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Long‐Term Slowdown of Ocean Carbon Uptake by Alkalinity Dynamics

M. O. Chikamoto, Pedro DiNezio, Nicole S. Lovenduski

2023Geophysical Research Letters34 citationsDOIOpen Access PDF

Abstract

Abstract Oceanic absorption of atmospheric carbon dioxide (CO 2 ) is expected to slow down under increasing anthropogenic emissions; however, the driving mechanisms and rates of change remain uncertain, limiting our ability to project long‐term changes in climate. Using an Earth system simulation, we show that the uptake of anthropogenic carbon will slow in the next three centuries via reductions in surface alkalinity. Warming and associated changes in precipitation and evaporation intensify density stratification of the upper ocean, inhibiting the transport of alkaline water from the deep. The effect of these changes is amplified threefold by reduced carbonate buffering, making alkalinity a dominant control on CO 2 uptake on multi‐century timescales. Our simulation reveals a previously unknown alkalinity‐climate feedback loop, amplifying multi‐century warming under high emission trajectories.

Topics & Concepts

AlkalinityEnvironmental scienceCarbon dioxideOcean acidificationGlobal warmingClimate changeSlowdownAtmospheric sciencesPrecipitationCarbon dioxide in Earth's atmosphereLimitingStratification (seeds)Ocean currentOceanographyClimatologyChemistryGeologyMeteorologyEngineeringLawPhysicsBotanyBiologyGerminationDormancyOrganic chemistrySeed dormancyPolitical scienceMechanical engineeringOcean Acidification Effects and ResponsesMethane Hydrates and Related PhenomenaMarine and coastal ecosystems
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