Evolution of Northwest Greenland Glaciers

In recent decades, tidewater glaciers in Northwest Greenland contributed significantly to sea level rise but exhibited a complex spatial pattern of retreat. Here, we use novel observations of bathymetry and water temperature from NASA's Ocean Melting Greenland mission to quantify the role of wa...

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Main Author: Wood, Michael
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2018
Subjects:
Greenland
Online Access:https://doi.org/10.7280/D1SH44
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spelling ftzenodo:oai:zenodo.org:5000543 2024-09-15T18:08:55+00:00 Evolution of Northwest Greenland Glaciers Wood, Michael 2018-06-05 https://doi.org/10.7280/D1SH44 unknown Zenodo https://zenodo.org/communities/dryad https://doi.org/10.7280/D1SH44 oai:zenodo.org:5000543 info:eu-repo/semantics/openAccess Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode info:eu-repo/semantics/other 2018 ftzenodo https://doi.org/10.7280/D1SH44 2024-07-26T16:47:38Z In recent decades, tidewater glaciers in Northwest Greenland contributed significantly to sea level rise but exhibited a complex spatial pattern of retreat. Here, we use novel observations of bathymetry and water temperature from NASA's Ocean Melting Greenland mission to quantify the role of warm, salty Atlantic Water in controlling the evolution of 37 glaciers. Modeled ocean-induced undercutting of calving margins compared with ice advection and ice-front retreat observed by satellites from 1985 to 2015 indicate that 35 glaciers retreated when cumulative anomalies in ocean-induced undercutting rose above the range of seasonal variability of calving-front positions, while 2 glaciers standing on shallow sills and colder water did not retreat. Deviations in the observed timing of retreat are explained by residual uncertainties in bathymetry, inefficient mixing of waters in shallow fjords, and the presence of small floating sections. Overall, warmer ocean temperature triggered the retreat, but calving processes dominate ablation (71%). Wood et al 2018, under review in Geophysical Research Letters Other/Unknown Material Greenland Zenodo
institution Open Polar
collection Zenodo
op_collection_id ftzenodo
language unknown
description In recent decades, tidewater glaciers in Northwest Greenland contributed significantly to sea level rise but exhibited a complex spatial pattern of retreat. Here, we use novel observations of bathymetry and water temperature from NASA's Ocean Melting Greenland mission to quantify the role of warm, salty Atlantic Water in controlling the evolution of 37 glaciers. Modeled ocean-induced undercutting of calving margins compared with ice advection and ice-front retreat observed by satellites from 1985 to 2015 indicate that 35 glaciers retreated when cumulative anomalies in ocean-induced undercutting rose above the range of seasonal variability of calving-front positions, while 2 glaciers standing on shallow sills and colder water did not retreat. Deviations in the observed timing of retreat are explained by residual uncertainties in bathymetry, inefficient mixing of waters in shallow fjords, and the presence of small floating sections. Overall, warmer ocean temperature triggered the retreat, but calving processes dominate ablation (71%). Wood et al 2018, under review in Geophysical Research Letters
format Other/Unknown Material
author Wood, Michael
spellingShingle Wood, Michael
Evolution of Northwest Greenland Glaciers
author_facet Wood, Michael
author_sort Wood, Michael
title Evolution of Northwest Greenland Glaciers
title_short Evolution of Northwest Greenland Glaciers
title_full Evolution of Northwest Greenland Glaciers
title_fullStr Evolution of Northwest Greenland Glaciers
title_full_unstemmed Evolution of Northwest Greenland Glaciers
title_sort evolution of northwest greenland glaciers
publisher Zenodo
publishDate 2018
url https://doi.org/10.7280/D1SH44
genre Greenland
genre_facet Greenland
op_relation https://zenodo.org/communities/dryad
https://doi.org/10.7280/D1SH44
oai:zenodo.org:5000543
op_rights info:eu-repo/semantics/openAccess
Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
op_doi https://doi.org/10.7280/D1SH44
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