Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord

Fjords are conduits for heat and mass exchange between tidewater glaciers and the coastal ocean, and thus regulate near-glacier water properties and submarine melting of glaciers. Entrainment into subglacial discharge plumes is a primary driver of seasonal glacial fjord circulation; however, outflow...

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Main Authors: Hager, Alexander O., Sutherland, David A., Amundson, Jason M., Jackson, Rebecca H., Kienholz, Christian, Motyka, Roman J., Nash, Jonathan D.
Format: Article in Journal/Newspaper
Language:English
Published: American Geophysical Union 2022
Subjects:
Fjords
Glaciers
Freshwater reflux
Southeast Alaska
Subglacial discharge
Tidewater glaciers
Arctic
Greenland
Patagonia
glacier
glaciers
Tidewater
Alaska
Online Access:http://hdl.handle.net/11122/13020
id ftunivalaska:oai:scholarworks.alaska.edu:11122/13020
record_format openpolar
spelling ftunivalaska:oai:scholarworks.alaska.edu:11122/13020 2023-05-15T15:16:37+02:00 Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord Hager, Alexander O. Sutherland, David A. Amundson, Jason M. Jackson, Rebecca H. Kienholz, Christian Motyka, Roman J. Nash, Jonathan D. 2022-04-19 http://hdl.handle.net/11122/13020 en_US eng American Geophysical Union Hager, A. O., Sutherland, D. A., Amundson, J. M., Jackson, R. H., Kienholz, C., Motyka, R. J., & Nash, J. D. (2022). Subglacial discharge reflux and buoyancy forcing drive seasonality in a silled glacial fjord. Journal of Geophysical Research: Oceans, 127, e2021JC018355. https://doi. org/10.1029/2021JC018355 http://hdl.handle.net/11122/13020 Journal of Geophysical Research: Oceans Fjords Glaciers Freshwater reflux Southeast Alaska Subglacial discharge Tidewater glaciers Article 2022 ftunivalaska 2023-02-23T21:38:02Z Fjords are conduits for heat and mass exchange between tidewater glaciers and the coastal ocean, and thus regulate near-glacier water properties and submarine melting of glaciers. Entrainment into subglacial discharge plumes is a primary driver of seasonal glacial fjord circulation; however, outflowing plumes may continue to influence circulation after reaching neutral buoyancy through the sill-driven mixing and recycling, or reflux, of glacial freshwater. Despite its importance in non-glacial fjords, no framework exists for how freshwater reflux may affect circulation in glacial fjords, where strong buoyancy forcing is also present. Here, we pair a suite of hydrographic observations measured throughout 2016–2017 in LeConte Bay, Alaska, with a three-dimensional numerical model of the fjord to quantify sill-driven reflux of glacial freshwater, and determine its influence on glacial fjord circulation. When paired with subglacial discharge plume-driven buoyancy forcing, sill-generated mixing drives distinct seasonal circulation regimes that differ greatly in their ability to transport heat to the glacier terminus. During the summer, 53%–72% of the surface outflow is refluxed at the fjord's shallow entrance sill and is subsequently re-entrained into the subglacial discharge plume at the fjord head. As a result, near-terminus water properties are heavily influenced by mixing at the entrance sill, and circulation is altered to draw warm, modified external surface water to the glacier grounding line at 200 m depth. This circulatory cell does not exist in the winter when freshwater reflux is minimal. Similar seasonal behavior may exist at other glacial fjords throughout Southeast Alaska, Patagonia, Greenland, and elsewhere. This work was supported by NSF Arctic Natural Sciences grants OPP-1503910, 1504191, 1504288, and 1504521. The authors thank Pat Dryer, Dylan Winters, Erin Pettit, and the crews of the R/V Pelican and M/V Stellar for their contributions to the fieldwork. The authors thank Petersburg High School and ... Article in Journal/Newspaper Arctic glacier glacier glaciers Greenland Tidewater Alaska University of Alaska: ScholarWorks@UA Arctic Greenland Patagonia
institution Open Polar
collection University of Alaska: ScholarWorks@UA
op_collection_id ftunivalaska
language English
topic Fjords
Glaciers
Freshwater reflux
Southeast Alaska
Subglacial discharge
Tidewater glaciers
spellingShingle Fjords
Glaciers
Freshwater reflux
Southeast Alaska
Subglacial discharge
Tidewater glaciers
Hager, Alexander O.
Sutherland, David A.
Amundson, Jason M.
Jackson, Rebecca H.
Kienholz, Christian
Motyka, Roman J.
Nash, Jonathan D.
Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord
topic_facet Fjords
Glaciers
Freshwater reflux
Southeast Alaska
Subglacial discharge
Tidewater glaciers
description Fjords are conduits for heat and mass exchange between tidewater glaciers and the coastal ocean, and thus regulate near-glacier water properties and submarine melting of glaciers. Entrainment into subglacial discharge plumes is a primary driver of seasonal glacial fjord circulation; however, outflowing plumes may continue to influence circulation after reaching neutral buoyancy through the sill-driven mixing and recycling, or reflux, of glacial freshwater. Despite its importance in non-glacial fjords, no framework exists for how freshwater reflux may affect circulation in glacial fjords, where strong buoyancy forcing is also present. Here, we pair a suite of hydrographic observations measured throughout 2016–2017 in LeConte Bay, Alaska, with a three-dimensional numerical model of the fjord to quantify sill-driven reflux of glacial freshwater, and determine its influence on glacial fjord circulation. When paired with subglacial discharge plume-driven buoyancy forcing, sill-generated mixing drives distinct seasonal circulation regimes that differ greatly in their ability to transport heat to the glacier terminus. During the summer, 53%–72% of the surface outflow is refluxed at the fjord's shallow entrance sill and is subsequently re-entrained into the subglacial discharge plume at the fjord head. As a result, near-terminus water properties are heavily influenced by mixing at the entrance sill, and circulation is altered to draw warm, modified external surface water to the glacier grounding line at 200 m depth. This circulatory cell does not exist in the winter when freshwater reflux is minimal. Similar seasonal behavior may exist at other glacial fjords throughout Southeast Alaska, Patagonia, Greenland, and elsewhere. This work was supported by NSF Arctic Natural Sciences grants OPP-1503910, 1504191, 1504288, and 1504521. The authors thank Pat Dryer, Dylan Winters, Erin Pettit, and the crews of the R/V Pelican and M/V Stellar for their contributions to the fieldwork. The authors thank Petersburg High School and ...
format Article in Journal/Newspaper
author Hager, Alexander O.
Sutherland, David A.
Amundson, Jason M.
Jackson, Rebecca H.
Kienholz, Christian
Motyka, Roman J.
Nash, Jonathan D.
author_facet Hager, Alexander O.
Sutherland, David A.
Amundson, Jason M.
Jackson, Rebecca H.
Kienholz, Christian
Motyka, Roman J.
Nash, Jonathan D.
author_sort Hager, Alexander O.
title Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord
title_short Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord
title_full Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord
title_fullStr Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord
title_full_unstemmed Subglacial Discharge Reflux and Buoyancy Forcing Drive Seasonality in a Silled Glacial Fjord
title_sort subglacial discharge reflux and buoyancy forcing drive seasonality in a silled glacial fjord
publisher American Geophysical Union
publishDate 2022
url http://hdl.handle.net/11122/13020
geographic Arctic
Greenland
Patagonia
geographic_facet Arctic
Greenland
Patagonia
genre Arctic
glacier
glacier
glaciers
Greenland
Tidewater
Alaska
genre_facet Arctic
glacier
glacier
glaciers
Greenland
Tidewater
Alaska
op_relation Hager, A. O., Sutherland, D. A., Amundson, J. M., Jackson, R. H., Kienholz, C., Motyka, R. J., & Nash, J. D. (2022). Subglacial discharge reflux and buoyancy forcing drive seasonality in a silled glacial fjord. Journal of Geophysical Research: Oceans, 127, e2021JC018355. https://doi. org/10.1029/2021JC018355
http://hdl.handle.net/11122/13020
Journal of Geophysical Research: Oceans
_version_ 1766346927060811776

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