1428 / 2024-09-27 06:06:42
Abyssal ocean overturning slowdown and warming driven by Antarctic meltwater
Abyssal ocean overturning,Antarctic meltwater,Antarctic bottom water,Climate projections
Session 23 - Sea level rise: understanding, observing, and modelling
Abstract Accepted
Qian Li / MIT
Matthew England / University of New South Wales
Andy Hogg / The Australian National University
Steve Rintoul / CSIRO
Adele Morrison / The Australian National University
The abyssal ocean circulation is a key component of the global meridional overturning circulation, cycling heat, carbon, oxygen, and nutrients throughout the world ocean. The strongest historical trend observed in the abyssal ocean is warming at high southern latitudes, yet it is unclear what processes have driven this warming and whether it is linked to a slowdown in the ocean’s overturning circulation. Furthermore, attributing change to specific drivers is difficult owing to limited measurements and because coupled climate models exhibit biases in the region. In addition, future change remains uncertain, with the latest coordinated climate model projections not accounting for dynamic ice-sheet melt. Here we use a transient forced high-resolution coupled ocean–sea-ice model to show that under a high-emissions scenario, abyssal warming is set to accelerate over the next several decades. We find that meltwater input around Antarctica drives a contraction of Antarctic Bottom Water (AABW), opening a pathway that allows warm Circumpolar Deep Water greater access to the continental shelf. The reduction in AABW formation results in warming and ageing of the abyssal ocean, consistent with recent measurements. In contrast, projected wind and thermal forcing has little impact on the properties, age, and volume of AABW. These results highlight the critical importance of Antarctic meltwater in setting the abyssal ocean overturning, with implications for global ocean biogeochemistry and climate that could last for centuries.