Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities

Antarctic ice shelves are losing mass at drastically different rates, primarily due to differing rates of oceanic heat supply to their bases. However, a generalized theory for the inflow of relatively warm water into ice shelf cavities is lacking. This study proposes such a theory based on a geostro...

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Bibliographic Details
Main Authors: Finucane, Garrett, Stewart, Andrew
Format: Other/Unknown Material
Language:unknown
Published: Authorea, Inc. 2024
Subjects:
Antarctic
Antarc*
Ice Shelf
Ice Shelves
Online Access:http://dx.doi.org/10.22541/essoar.170594141.13133501/v2
id crwinnower:10.22541/essoar.170594141.13133501/v2
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spelling crwinnower:10.22541/essoar.170594141.13133501/v2 2024-06-02T07:56:45+00:00 Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities Finucane, Garrett Stewart, Andrew 2024 http://dx.doi.org/10.22541/essoar.170594141.13133501/v2 unknown Authorea, Inc. posted-content 2024 crwinnower https://doi.org/10.22541/essoar.170594141.13133501/v2 2024-05-07T14:19:22Z Antarctic ice shelves are losing mass at drastically different rates, primarily due to differing rates of oceanic heat supply to their bases. However, a generalized theory for the inflow of relatively warm water into ice shelf cavities is lacking. This study proposes such a theory based on a geostrophically constrained inflow, combined with a threshold bathymetric elevation, the Highest Unconnected isoBath (HUB), that obstructs warm water access to ice shelf grounding lines. This theory captures ~90% of the variance in melt rates across a suite of idealized process-oriented ocean/ice shelf simulations with quasi-randomized geometries. Applied to observations of ice shelf geometries and offshore hydrography, the theory captures ~80% of the variance in measured ice shelf melt rates. These findings provide a generalized theoretical framework for melt resulting from buoyancy-driven warm water access to geometrically complex Antarctic ice shelf cavities. Other/Unknown Material Antarc* Antarctic Ice Shelf Ice Shelves The Winnower Antarctic
institution Open Polar
collection The Winnower
op_collection_id crwinnower
language unknown
description Antarctic ice shelves are losing mass at drastically different rates, primarily due to differing rates of oceanic heat supply to their bases. However, a generalized theory for the inflow of relatively warm water into ice shelf cavities is lacking. This study proposes such a theory based on a geostrophically constrained inflow, combined with a threshold bathymetric elevation, the Highest Unconnected isoBath (HUB), that obstructs warm water access to ice shelf grounding lines. This theory captures ~90% of the variance in melt rates across a suite of idealized process-oriented ocean/ice shelf simulations with quasi-randomized geometries. Applied to observations of ice shelf geometries and offshore hydrography, the theory captures ~80% of the variance in measured ice shelf melt rates. These findings provide a generalized theoretical framework for melt resulting from buoyancy-driven warm water access to geometrically complex Antarctic ice shelf cavities.
format Other/Unknown Material
author Finucane, Garrett
Stewart, Andrew
spellingShingle Finucane, Garrett
Stewart, Andrew
Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities
author_facet Finucane, Garrett
Stewart, Andrew
author_sort Finucane, Garrett
title Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities
title_short Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities
title_full Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities
title_fullStr Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities
title_full_unstemmed Geostrophically Constrained Flow of Warm Subsurface Waters Into Geometrically Complex Ice Shelf Cavities
title_sort geostrophically constrained flow of warm subsurface waters into geometrically complex ice shelf cavities
publisher Authorea, Inc.
publishDate 2024
url http://dx.doi.org/10.22541/essoar.170594141.13133501/v2
geographic Antarctic
geographic_facet Antarctic
genre Antarc*
Antarctic
Ice Shelf
Ice Shelves
genre_facet Antarc*
Antarctic
Ice Shelf
Ice Shelves
op_doi https://doi.org/10.22541/essoar.170594141.13133501/v2
_version_ 1800758599895482368

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