Abstract's details

Causal Mechanism of Sea Level Change in the Beaufort Sea

Ichiro Fukumori (Jet Propulsion Laboratory, United States)


Ou Wang (Jet Propulsion Laboratory, United States); Ian Fenty (Jet Propulsion Laboratory, United States)

Event: 2022 Ocean Surface Topography Science Team Meeting

Session: Science II: Large Scale Ocean Circulation Variability and Change

Presentation type: Type Oral

Over the last two decades, sea-level across the arctic’s Beaufort Sea has been rising faster than its global mean by an order of magnitude (Figure a). Beaufort Sea’s rapid sea-level rise is mainly a halosteric change (Figure b), reflecting an increase in freshwater content greater than that associated with the Great Salinity Anomaly of the 1970s, raising the possibility of future disruptions in large-scale ocean circulation and climate. Here we provide a new perspective of this Beaufort Sea variation by quantifying its causal mechanism from 1992 to 2017 using a global, data-constrained ocean and sea-ice estimate of the Estimating the Circulation and Climate of the Ocean (ECCO) consortium.

Analysis reveals that the variation is driven by a combination of wind stress and sea-ice (Figure c). Seasonal variation mainly reflects near-surface change due to the annual melting and freezing of sea-ice while interannual change extends deeper and mostly relates to wind-driven Ekman transport. Increasing wind stress and sea-ice melt are, however, equally important for decadal change that dominates the overall variation. Strengthening anticyclonic wind stress surrounding Beaufort Sea intensifies the ocean’s lateral Ekman convergence of relatively fresh surface waters. The strengthening stress also enhances convergence of sea-ice and ocean heat that increase the amount of Beaufort Sea’s net sea-ice melt (Figure d). The enhanced significance at longer time-scales of sea-ice melt relative to direct wind forcing can be attributed to the ocean’s mixing of melt-water being slower than its dynamic adjustment to mechanical perturbations. The spin-up difference implies that, on their own, the sea-ice-melt-driven diabatic change will last much longer than the direct wind-driven kinematic anomaly.
Causal Mechanism of Sea Level Change in the Beaufort Sea

Oral presentation show times:

Room Start Date End Date
Sala Grande Wed, Nov 02 2022,14:15 Wed, Nov 02 2022,14:30
Ichiro Fukumori
Jet Propulsion Laboratory
United States