The effects of atmospheric and oceanic conditions on the stability of ice bridges

Ice bridges are arch-like ice structures that form in narrow passages and straits. These bridges play largely important roles in the circulation of Arctic sea ice. When an ice bridge is present in a strait, there is typically a stoppage of sea ice flow, and there generally little ice flow downstream...

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Bibliographic Details
Main Author: Stelma, Sigourney Anne
Format: Thesis
Language:unknown
Published: University of Delaware 2015
Subjects:
Ice crossings > Effect of temperature on > Models
Ice crossings > Effect of radiation on > Models
Arctic
Ellesmere Island
Greenland
Nares
Nares strait
Sea ice
Online Access:http://udspace.udel.edu/handle/19716/17024
id ftunivdelaware:oai:udspace.udel.edu:19716/17024
record_format openpolar
spelling ftunivdelaware:oai:udspace.udel.edu:19716/17024 2023-06-11T04:09:10+02:00 The effects of atmospheric and oceanic conditions on the stability of ice bridges Stelma, Sigourney Anne 2015 application/pdf http://udspace.udel.edu/handle/19716/17024 unknown University of Delaware http://search.proquest.com/docview/1712663960?accountid=10457 921995427 http://udspace.udel.edu/handle/19716/17024 Ice crossings -- Effect of temperature on -- Models Ice crossings -- Effect of radiation on -- Models Thesis 2015 ftunivdelaware 2023-05-01T12:55:11Z Ice bridges are arch-like ice structures that form in narrow passages and straits. These bridges play largely important roles in the circulation of Arctic sea ice. When an ice bridge is present in a strait, there is typically a stoppage of sea ice flow, and there generally little ice flow downstream from the bridge. Nares Strait, located between Ellesmere Island and Greenland, allows for Arctic sea ice to be exported into the Atlantic Ocean. Ice bridges typically form in Nares Strait, which causes a stoppage of this export. This stoppage allows for Arctic sea ice to grow thicker, which is important for our current climate. Building on studies that examined the formation of ice bridges, this study aims to model and analyze the destruction of ice bridges. Using CICE: The Los Alamos Sea Ice Model, ice bridges are modeled in an idealized strait that is geographically and dimensionally similar to Nares Strait. The bridges are allowed to strengthen for 7 days past their initial formation. Then various atmospheric and oceanic parameters are changed, to examine their effect on the stable ice bridges. All parameter changes are applied over the entire domain and are constant in time. Extreme temperatures are used to study the effect of temperature. Then various amounts of longwave and shortwave radiation are tested independently, combined with temperature and combined with each other and temperature. We found that air temperature alone isn't the driving mechanism in bridge disintegration. As for radiative forcing, long- wave radiation proves to have a stronger effect than shortwave radiation. In fact, when air temperature, longwave radiation and shortwave radiation are combined, longwave radiation is the most dominant factor in disintegrating the bridges, followed by air temperature. Wind and currents are also tested. A seasonal progression, from winter to summer, is also applied to stable ice bridges of different initial thicknesses. All bridges studied under the seasonal progression were destroyed within the three ... Thesis Arctic Ellesmere Island Greenland Nares strait Sea ice The University of Delaware Library Institutional Repository Arctic Ellesmere Island Greenland Nares ENVELOPE(158.167,158.167,-81.450,-81.450)
institution Open Polar
collection The University of Delaware Library Institutional Repository
op_collection_id ftunivdelaware
language unknown
topic Ice crossings -- Effect of temperature on -- Models
Ice crossings -- Effect of radiation on -- Models
spellingShingle Ice crossings -- Effect of temperature on -- Models
Ice crossings -- Effect of radiation on -- Models
Stelma, Sigourney Anne
The effects of atmospheric and oceanic conditions on the stability of ice bridges
topic_facet Ice crossings -- Effect of temperature on -- Models
Ice crossings -- Effect of radiation on -- Models
description Ice bridges are arch-like ice structures that form in narrow passages and straits. These bridges play largely important roles in the circulation of Arctic sea ice. When an ice bridge is present in a strait, there is typically a stoppage of sea ice flow, and there generally little ice flow downstream from the bridge. Nares Strait, located between Ellesmere Island and Greenland, allows for Arctic sea ice to be exported into the Atlantic Ocean. Ice bridges typically form in Nares Strait, which causes a stoppage of this export. This stoppage allows for Arctic sea ice to grow thicker, which is important for our current climate. Building on studies that examined the formation of ice bridges, this study aims to model and analyze the destruction of ice bridges. Using CICE: The Los Alamos Sea Ice Model, ice bridges are modeled in an idealized strait that is geographically and dimensionally similar to Nares Strait. The bridges are allowed to strengthen for 7 days past their initial formation. Then various atmospheric and oceanic parameters are changed, to examine their effect on the stable ice bridges. All parameter changes are applied over the entire domain and are constant in time. Extreme temperatures are used to study the effect of temperature. Then various amounts of longwave and shortwave radiation are tested independently, combined with temperature and combined with each other and temperature. We found that air temperature alone isn't the driving mechanism in bridge disintegration. As for radiative forcing, long- wave radiation proves to have a stronger effect than shortwave radiation. In fact, when air temperature, longwave radiation and shortwave radiation are combined, longwave radiation is the most dominant factor in disintegrating the bridges, followed by air temperature. Wind and currents are also tested. A seasonal progression, from winter to summer, is also applied to stable ice bridges of different initial thicknesses. All bridges studied under the seasonal progression were destroyed within the three ...
format Thesis
author Stelma, Sigourney Anne
author_facet Stelma, Sigourney Anne
author_sort Stelma, Sigourney Anne
title The effects of atmospheric and oceanic conditions on the stability of ice bridges
title_short The effects of atmospheric and oceanic conditions on the stability of ice bridges
title_full The effects of atmospheric and oceanic conditions on the stability of ice bridges
title_fullStr The effects of atmospheric and oceanic conditions on the stability of ice bridges
title_full_unstemmed The effects of atmospheric and oceanic conditions on the stability of ice bridges
title_sort effects of atmospheric and oceanic conditions on the stability of ice bridges
publisher University of Delaware
publishDate 2015
url http://udspace.udel.edu/handle/19716/17024
long_lat ENVELOPE(158.167,158.167,-81.450,-81.450)
geographic Arctic
Ellesmere Island
Greenland
Nares
geographic_facet Arctic
Ellesmere Island
Greenland
Nares
genre Arctic
Ellesmere Island
Greenland
Nares strait
Sea ice
genre_facet Arctic
Ellesmere Island
Greenland
Nares strait
Sea ice
op_relation http://search.proquest.com/docview/1712663960?accountid=10457
921995427
http://udspace.udel.edu/handle/19716/17024
_version_ 1768382898149261312

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