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Characterizing the Interannual Variability of North Atlantic Subpolar Overturning

Yao Fu, M. Susan Lozier, Amy S. Bower, Kristin Burmeister, Tiago Carrilho Biló, Frédéric Cyr, Stuart A. Cunningham, Brad deYoung, Ahmad Fehmi Dilmahamod, M. Femke de Jong, Nora Fried, N. Penny Holliday, Neil Fraser, William E. Johns, Feili Li, Johannes Karstensen, Robert S. Pickart, Fiammetta Straneo, Igor Yashayaev

2025Geophysical Research Letters8 citationsDOIOpen Access PDF

Abstract

Abstract Variability of the Atlantic Meridional Overturning Circulation (MOC) has drawn extensive attention due to its impact on the global redistribution of heat and freshwater. Here we present the latest time series (2014–2022) of the Overturning in the Subpolar North Atlantic Program and characterize MOC interannual variability. We find that any single boundary current captures ∼30% of subpolar MOC interannual variability. However, to fully resolve MOC variability, a wide swath across the eastern subpolar basin is needed; in the Labrador Sea both boundaries are needed. Through a volume budget analysis for the subpolar basins' lower limbs, we estimate the magnitude of unresolved processes (e.g., diapycnal mixing) required to close the mean budget (∼2 Sv). We find that in the eastern subpolar basin surface‐forced transformation variability is linked to lower limb volume variability, which translates to MOC changes within the same year. In contrast, this linkage is weak in the Labrador Sea.

Topics & Concepts

GeologyClimatologyBoundary currentOceanographyThermohaline circulationStructural basinNorth Atlantic Deep WaterZonal and meridionalAtlantic hurricaneShutdown of thermohaline circulationGeneral Circulation ModelCurrent (fluid)Gulf StreamCirculation (fluid dynamics)Ocean currentWater massOceanic basinVolume (thermodynamics)Boundary (topology)Meteorological Phenomena and SimulationsClimate variability and modelsIonosphere and magnetosphere dynamics