'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers

A new calving criterion is introduced, which predicts calving where the depth of surface crevasses equals ice height above sea level. Crevasse depth is calculated from strain rates, and terminus position and calving rate are therefore functions of ice velocity, strain rate, ice thickness and water d...

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Main Authors: Benn, Douglas Iain, Hulton, N R J, Mottram, R H
Format: Article in Journal/Newspaper
Language:English
Published: 2007
Subjects:
FRACTURE-MECHANICS APPROACH
ICE-SHEETS
SUBGLACIAL WATER
CREVASSES
VELOCITY
ACCELERATION
PENETRATION
PRESSURE
RETREAT
CLIMATE
Annals of Glaciology
Ice Sheet
Ice Shelves
Online Access:https://research-portal.st-andrews.ac.uk/en/researchoutput/calving-laws-sliding-laws-and-the-stability-of-tidewater-glaciers(6b9dec0b-8f58-4ea6-9768-b983353d54bb).html
http://www.scopus.com/inward/record.url?scp=36248977099&partnerID=8YFLogxK
id ftunstandrewcris:oai:research-portal.st-andrews.ac.uk:publications/6b9dec0b-8f58-4ea6-9768-b983353d54bb
record_format openpolar
spelling ftunstandrewcris:oai:research-portal.st-andrews.ac.uk:publications/6b9dec0b-8f58-4ea6-9768-b983353d54bb 2024-09-15T17:39:58+00:00 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers Benn, Douglas Iain Hulton, N R J Mottram, R H 2007-07 https://research-portal.st-andrews.ac.uk/en/researchoutput/calving-laws-sliding-laws-and-the-stability-of-tidewater-glaciers(6b9dec0b-8f58-4ea6-9768-b983353d54bb).html http://www.scopus.com/inward/record.url?scp=36248977099&partnerID=8YFLogxK eng eng https://research-portal.st-andrews.ac.uk/en/researchoutput/calving-laws-sliding-laws-and-the-stability-of-tidewater-glaciers(6b9dec0b-8f58-4ea6-9768-b983353d54bb).html info:eu-repo/semantics/restrictedAccess Benn , D I , Hulton , N R J & Mottram , R H 2007 , ' 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers ' , Annals of Glaciology , vol. 46 , no. 1 , pp. 123-130 . FRACTURE-MECHANICS APPROACH ICE-SHEETS SUBGLACIAL WATER CREVASSES VELOCITY ACCELERATION PENETRATION PRESSURE RETREAT CLIMATE article 2007 ftunstandrewcris 2024-08-14T23:40:02Z A new calving criterion is introduced, which predicts calving where the depth of surface crevasses equals ice height above sea level. Crevasse depth is calculated from strain rates, and terminus position and calving rate are therefore functions of ice velocity, strain rate, ice thickness and water depth. We couple the calving criterion with three 'sliding laws', in which velocity is controlled by (1) basal drag, (2) lateral drag and (3) a combination of the two. In model 1, velocities and strain rates are dependent on effective pressure, and hence ice thickness relative to water depth. Imposed thinning can lead to acceleration and terminus retreat, and ice shelves cannot form. In model 2, ice velocity is independent of changes in ice thickness unless accompanied by changes in surface gradient. Velocities are strongly dependent on channel width, and calving margins tend to stabilize at flow-unit widenings. Model 3 exhibits the combined characteristics of the other two models, and suggests that calving glaciers are sensitive to imposed thickness changes if basal drag provides most resistance to flow, but stable if most resistance is from lateral drag. ice shelves can form if reduction of basal drag occurs over a sufficiently long spatial scale. In combination, the new calving criterion and the basal-lateral drag sliding function (model 3) can be used to simulate much of the observed spectrum of behaviour of calving glaciers, and present new opportunities to model ice-sheet response to climate change. Article in Journal/Newspaper Annals of Glaciology Ice Sheet Ice Shelves University of St Andrews: Research Portal
institution Open Polar
collection University of St Andrews: Research Portal
op_collection_id ftunstandrewcris
language English
topic FRACTURE-MECHANICS APPROACH
ICE-SHEETS
SUBGLACIAL WATER
CREVASSES
VELOCITY
ACCELERATION
PENETRATION
PRESSURE
RETREAT
CLIMATE
spellingShingle FRACTURE-MECHANICS APPROACH
ICE-SHEETS
SUBGLACIAL WATER
CREVASSES
VELOCITY
ACCELERATION
PENETRATION
PRESSURE
RETREAT
CLIMATE
Benn, Douglas Iain
Hulton, N R J
Mottram, R H
'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers
topic_facet FRACTURE-MECHANICS APPROACH
ICE-SHEETS
SUBGLACIAL WATER
CREVASSES
VELOCITY
ACCELERATION
PENETRATION
PRESSURE
RETREAT
CLIMATE
description A new calving criterion is introduced, which predicts calving where the depth of surface crevasses equals ice height above sea level. Crevasse depth is calculated from strain rates, and terminus position and calving rate are therefore functions of ice velocity, strain rate, ice thickness and water depth. We couple the calving criterion with three 'sliding laws', in which velocity is controlled by (1) basal drag, (2) lateral drag and (3) a combination of the two. In model 1, velocities and strain rates are dependent on effective pressure, and hence ice thickness relative to water depth. Imposed thinning can lead to acceleration and terminus retreat, and ice shelves cannot form. In model 2, ice velocity is independent of changes in ice thickness unless accompanied by changes in surface gradient. Velocities are strongly dependent on channel width, and calving margins tend to stabilize at flow-unit widenings. Model 3 exhibits the combined characteristics of the other two models, and suggests that calving glaciers are sensitive to imposed thickness changes if basal drag provides most resistance to flow, but stable if most resistance is from lateral drag. ice shelves can form if reduction of basal drag occurs over a sufficiently long spatial scale. In combination, the new calving criterion and the basal-lateral drag sliding function (model 3) can be used to simulate much of the observed spectrum of behaviour of calving glaciers, and present new opportunities to model ice-sheet response to climate change.
format Article in Journal/Newspaper
author Benn, Douglas Iain
Hulton, N R J
Mottram, R H
author_facet Benn, Douglas Iain
Hulton, N R J
Mottram, R H
author_sort Benn, Douglas Iain
title 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers
title_short 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers
title_full 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers
title_fullStr 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers
title_full_unstemmed 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers
title_sort 'calving laws', 'sliding laws', and the stability of tidewater glaciers
publishDate 2007
url https://research-portal.st-andrews.ac.uk/en/researchoutput/calving-laws-sliding-laws-and-the-stability-of-tidewater-glaciers(6b9dec0b-8f58-4ea6-9768-b983353d54bb).html
http://www.scopus.com/inward/record.url?scp=36248977099&partnerID=8YFLogxK
genre Annals of Glaciology
Ice Sheet
Ice Shelves
genre_facet Annals of Glaciology
Ice Sheet
Ice Shelves
op_source Benn , D I , Hulton , N R J & Mottram , R H 2007 , ' 'Calving Laws', 'Sliding Laws', and the Stability of Tidewater Glaciers ' , Annals of Glaciology , vol. 46 , no. 1 , pp. 123-130 .
op_relation https://research-portal.st-andrews.ac.uk/en/researchoutput/calving-laws-sliding-laws-and-the-stability-of-tidewater-glaciers(6b9dec0b-8f58-4ea6-9768-b983353d54bb).html
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1810483700977106944

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