Velocity and temperature data in the turbulent boundary layer of an iceberg in Southeast Alaska, 2023

Melting glaciers are projected to produce several centimeters of sea level rise over the next few decades. Despite this threat, the fundamental fluid dynamics which drive melt at tidewater glaciers remain poorly characterized. This is primarily attributed to challenges associated with measuring the temperature and velocity of ocean water at the submerged cliffs of actively calving glaciers. To this end, we have developed a robotically-deployed instrument that can be bolted to a glacier's face. This instrument is capable of measuring temperature and velocity of ocean waters within a few centimeters of the ice, representing the first measurements of their kind. Our observations demonstrate the ways in which meltwater at ice boundaries can accelerate melt. Meltwaters tend to be less salty (and hence lighter) than the nearby ocean waters (which are salty, warm and heavy), so the meltwater rises along the ice face, creating an energetic, near boundary flow. The data here are used in Nash et al., 2024 to demonstrate that buoyant melt plumes are as important as large-scale currents in providing energy to the ice to fuel melt. We anticipate these data will help our community create more accurate models of ice melt needed to predict the advance or retreat of marine ice cliffs of Greenland, Alaska and Antarctica. Three distinct flow regimes are included in this dataset, corresponding to the following cases: Case 1A: Quasi-steady buoyant plume. Case 1B: Strongly-undulating buoyant plume. Case 2: Strong crossflow. Each of these are described in more detail in the following manuscript: Nash, J.D., Weiss, K., Wengrove, M.E., Osman, N., Pettit, E.C., Zhao, K., Jackson, R.H., Nahorniak, J., Jensen, K., Tindal, E., Skyllingstad, E., Cohen, N., and Sutherland, D (2024) Turbulent Dynamics of Buoyant Melt Plumes Adjacent Near-Vertical Glacier Ice. Geophysical Research Letters, in press. https://doi.org/10.22541/au.170869824.49695931/v1