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The vertical structure and entrainment of subglacial melt water plumes

Burchard, Hans; Bolding, Karsten; Jenkins, Adrian ORCID: https://orcid.org/0000-0002-9117-0616; Losch, Martin; Reinert, Markus; Umlauf, Lars. 2022 The vertical structure and entrainment of subglacial melt water plumes. Journal of Advances in Modeling Earth Systems, 14 (3), e2021MS002925. 34, pp. https://doi.org/10.1029/2021MS002925

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© 2022 The Authors. Journal of Advances in Modeling Earth Systems published by Wiley Periodicals LLC on behalf of American Geophysical Union.
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Abstract/Summary

Basal melting of marine-terminating glaciers, through its impact on the forces that control the flow of the glaciers, is one of the major factors determining sea level rise in a world of global warming. Detailed quantitative understanding of dynamic and thermodynamic processes in melt-water plumes underneath the ice-ocean interface is essential for calculating the subglacial melt rate. The aim of this study is therefore to develop a numerical model of high spatial and process resolution to consistently reproduce the transports of heat and salt from the ambient water across the plume into the glacial ice. Based on boundary layer relations for momentum and tracers, stationary analytical solutions for the vertical structure of subglacial non-rotational plumes are derived, including entrainment at the plume base. These solutions are used to develop and test convergent numerical formulations for the momentum and tracer fluxes across the ice-ocean interface. After implementation of these formulations into a water-column model coupled to a second-moment turbulence closure model, simulations of a transient rotational subglacial plume are performed. The simulated entrainment rate of ambient water entering the plume at its base is compared to existing entrainment parameterizations based on bulk properties of the plume. A sensitivity study with variations of interfacial slope, interfacial roughness and ambient water temperature reveals substantial performance differences between these bulk formulations. An existing entrainment parameterization based on the Froude number and the Ekman number proves to have the highest predictive skill. Recalibration to subglacial plumes using a variable drag coefficient further improves its performance.

Item Type: Publication - Article
Digital Object Identifier (DOI): https://doi.org/10.1029/2021MS002925
ISSN: 1942-2466
Additional Keywords: basal melt, entrainment, subglacial plume, water-column model
Date made live: 04 Mar 2022 10:17 +0 (UTC)
URI: https://nora.nerc.ac.uk/id/eprint/532193

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