Evolution of a Canada Basin ice-ocean boundary layer and mixed layer across a developing thermodynamically forced marginal ice zone

Shawn Gallaher, Timothy Stanton, William Shaw, Sylvia Cole, John Toole, Jeremy Wilkinson, Ted Maksym, Phil Hwang

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A comprehensive set of autonomous, ice-ocean measurements were collected across the Canada Basin to study the summer evolution of the ice-ocean boundary layer (IOBL) and ocean mixed layer (OML). Evaluation of local heat and freshwater balances and associated turbulent forcing reveals that melt
ponds (MPs) strongly influence the summer IOBL-OML evolution. Areal expansion of MPs in mid-June start the upper ocean evolution resulting in significant increases to ocean absorbed radiative flux (19 W m-2 in
this study). Buoyancy provided by MP drainage shoals and freshens the IOBL resulting in a 39 MJ m-2 increase in heat storage in just 19 days (52% of the summer total). Following MP drainage, a near-surface fresh layer deepens through shear-forced mixing to form the summer mixed layer (sML). In late summer, basal melt increases due to stronger turbulent mixing in the thin sML and the expansion of open water areas due in part to wind-forced divergence of the sea ice. Thermal heterogeneities in the marginal ice zone (MIZ) upper ocean led to large ocean-to-ice heat fluxes (100–200 W m-2) and enhanced basal ice melt (3–6 cm d-1), well away from the ice edge. Calculation of the upper ocean heat budget shows that local radiative heat input accounted for at least 89% of the observed latent heat losses and heat storage (partitioned 0.77/0.23). These results suggest that the extensive area of deteriorating sea ice observed away from the ice
edge during the 2014 season, termed the ‘‘thermodynamically forced MIZ,’’ was driven primarily by local
shortwave radiative forcing.
Original languageEnglish
Pages (from-to)6223-6250
Number of pages27
JournalJournal of Geophysical Research-Oceans
Issue number8
Publication statusPublished - 22 Aug 2016


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