Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile

Basal crevasses threaten the stability of ice shelves through the potential to form rifts and calve icebergs. Different existing fracture theories lead to distinct calving predictions. Furthermore, it is important to determine the dependence of crevasse stability on temperature due to large vertical...

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Main Authors:	Coffey, Niall Bennet, Lai, Ching-Yao, Wang, Yongji, Buck, W. Roger, Surawy-Stepney, Trystan, Hogg, Anna E
Format:	Other/Unknown Material
Language:	unknown
Published:	Authorea, Inc. 2023
Subjects:	Ice Shelf Ice Shelves
Online Access:	http://dx.doi.org/10.22541/essoar.169945580.00204993/v1

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spelling	crwinnower:10.22541/essoar.169945580.00204993/v1 2024-06-02T08:08:22+00:00 Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile Coffey, Niall Bennet Lai, Ching-Yao Wang, Yongji Buck, W. Roger Surawy-Stepney, Trystan Hogg, Anna E 2023 http://dx.doi.org/10.22541/essoar.169945580.00204993/v1 unknown Authorea, Inc. posted-content 2023 crwinnower https://doi.org/10.22541/essoar.169945580.00204993/v1 2024-05-07T14:19:21Z Basal crevasses threaten the stability of ice shelves through the potential to form rifts and calve icebergs. Different existing fracture theories lead to distinct calving predictions. Furthermore, it is important to determine the dependence of crevasse stability on temperature due to large vertical temperature variations on ice shelves. In this work, we explore the transition from basal crevasses to full thickness fractures considering the vertical temperature structure. Nye’s Zero-Stress approximation violates Newton’s second law. By upholding horizontal force balance, it has been shown analytically that the threshold stress for rift initiation is that of a freely- floating unconfined ice tongue. We generalize the force balance argument to show that while temperature structure influences crack depths, the threshold rifting stress is insensitive to temperature. In the classical Nye’s theory, basal crevasses would develop into rifts at a stress twice of that in our Nye’s theory adhering to horizontal force balance. Other/Unknown Material Ice Shelf Ice Shelves The Winnower
institution	Open Polar
collection	The Winnower
op_collection_id	crwinnower
language	unknown
description	Basal crevasses threaten the stability of ice shelves through the potential to form rifts and calve icebergs. Different existing fracture theories lead to distinct calving predictions. Furthermore, it is important to determine the dependence of crevasse stability on temperature due to large vertical temperature variations on ice shelves. In this work, we explore the transition from basal crevasses to full thickness fractures considering the vertical temperature structure. Nye’s Zero-Stress approximation violates Newton’s second law. By upholding horizontal force balance, it has been shown analytically that the threshold stress for rift initiation is that of a freely- floating unconfined ice tongue. We generalize the force balance argument to show that while temperature structure influences crack depths, the threshold rifting stress is insensitive to temperature. In the classical Nye’s theory, basal crevasses would develop into rifts at a stress twice of that in our Nye’s theory adhering to horizontal force balance.
format	Other/Unknown Material
author	Coffey, Niall Bennet Lai, Ching-Yao Wang, Yongji Buck, W. Roger Surawy-Stepney, Trystan Hogg, Anna E
spellingShingle	Coffey, Niall Bennet Lai, Ching-Yao Wang, Yongji Buck, W. Roger Surawy-Stepney, Trystan Hogg, Anna E Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile
author_facet	Coffey, Niall Bennet Lai, Ching-Yao Wang, Yongji Buck, W. Roger Surawy-Stepney, Trystan Hogg, Anna E
author_sort	Coffey, Niall Bennet
title	Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile
title_short	Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile
title_full	Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile
title_fullStr	Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile
title_full_unstemmed	Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile
title_sort	theoretical stability of ice shelf basal crevasses with a vertical temperature profile
publisher	Authorea, Inc.
publishDate	2023
url	http://dx.doi.org/10.22541/essoar.169945580.00204993/v1
genre	Ice Shelf Ice Shelves
genre_facet	Ice Shelf Ice Shelves
op_doi	https://doi.org/10.22541/essoar.169945580.00204993/v1
_version_	1800753596866756608

Theoretical Stability of Ice Shelf Basal Crevasses with a Vertical Temperature Profile

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