Permeability, Brine Content and Temperature of Temperate Ice

Abstract A temperate glacier is defined as a glacier containing liquid inclusions in which the concentration of salts is not too high. Nevertheless these salts suffice to produce a depression in temperature comparable with that due 10 the pressure, and much greater than that due to interfacial energ...

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Bibliographic Details
Published in:Journal of Glaciology
Main Author: Lliboutry, L.
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 1971
Subjects:
Earth-Surface Processes
Journal of Glaciology
Online Access:http://dx.doi.org/10.1017/s002214300001296x
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S002214300001296X
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record_format openpolar
spelling crcambridgeupr:10.1017/s002214300001296x 2024-03-03T08:46:09+00:00 Permeability, Brine Content and Temperature of Temperate Ice Lliboutry, L. 1971 http://dx.doi.org/10.1017/s002214300001296x https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S002214300001296X en eng Cambridge University Press (CUP) Journal of Glaciology volume 10, issue 58, page 15-29 ISSN 0022-1430 1727-5652 Earth-Surface Processes journal-article 1971 crcambridgeupr https://doi.org/10.1017/s002214300001296x 2024-02-08T08:40:23Z Abstract A temperate glacier is defined as a glacier containing liquid inclusions in which the concentration of salts is not too high. Nevertheless these salts suffice to produce a depression in temperature comparable with that due 10 the pressure, and much greater than that due to interfacial energies. Because of this a large part of the liquid water present in the ice is not mobile, contrary to the theory of Nye and Frank. Deformation and recrystallization is bound to close off capillary intergranular channels, for glacier ice is usually impermeable. An explanation is given of why firn, at a depth which the annual cold wave does not reach, is nevertheless transformed relatively suddenly into practically impermeable ice. Saline inclusions will migrate with a velocity inversely proportional to the potential temperature (difference from the melting point of pure ice at the pressure in question) and proportional to the gradient of this potential temperature. This velocity, the salinity, the liquid water content, and the ice temperature, parameters which are all functions of the depth, are calculated for a steady state in a stagnant or moving glacier. Under the action of anisotropic stresses, isolated inclusions perpendicular to the maximum compressive stress will enlarge at the expense of their neighbours. If however the two inclusions are connected by a capillary channel, no enlargement occurs, but instead the salt content decreases, evacuated to the other inclusion. This process would constitute an objection to the theory of glacier sliding by melting and refreezing around small obstacles, unless new subglacial mechanisms were to occur. Article in Journal/Newspaper Journal of Glaciology Cambridge University Press Journal of Glaciology 10 58 15 29
institution Open Polar
collection Cambridge University Press
op_collection_id crcambridgeupr
language English
topic Earth-Surface Processes
spellingShingle Earth-Surface Processes
Lliboutry, L.
Permeability, Brine Content and Temperature of Temperate Ice
topic_facet Earth-Surface Processes
description Abstract A temperate glacier is defined as a glacier containing liquid inclusions in which the concentration of salts is not too high. Nevertheless these salts suffice to produce a depression in temperature comparable with that due 10 the pressure, and much greater than that due to interfacial energies. Because of this a large part of the liquid water present in the ice is not mobile, contrary to the theory of Nye and Frank. Deformation and recrystallization is bound to close off capillary intergranular channels, for glacier ice is usually impermeable. An explanation is given of why firn, at a depth which the annual cold wave does not reach, is nevertheless transformed relatively suddenly into practically impermeable ice. Saline inclusions will migrate with a velocity inversely proportional to the potential temperature (difference from the melting point of pure ice at the pressure in question) and proportional to the gradient of this potential temperature. This velocity, the salinity, the liquid water content, and the ice temperature, parameters which are all functions of the depth, are calculated for a steady state in a stagnant or moving glacier. Under the action of anisotropic stresses, isolated inclusions perpendicular to the maximum compressive stress will enlarge at the expense of their neighbours. If however the two inclusions are connected by a capillary channel, no enlargement occurs, but instead the salt content decreases, evacuated to the other inclusion. This process would constitute an objection to the theory of glacier sliding by melting and refreezing around small obstacles, unless new subglacial mechanisms were to occur.
format Article in Journal/Newspaper
author Lliboutry, L.
author_facet Lliboutry, L.
author_sort Lliboutry, L.
title Permeability, Brine Content and Temperature of Temperate Ice
title_short Permeability, Brine Content and Temperature of Temperate Ice
title_full Permeability, Brine Content and Temperature of Temperate Ice
title_fullStr Permeability, Brine Content and Temperature of Temperate Ice
title_full_unstemmed Permeability, Brine Content and Temperature of Temperate Ice
title_sort permeability, brine content and temperature of temperate ice
publisher Cambridge University Press (CUP)
publishDate 1971
url http://dx.doi.org/10.1017/s002214300001296x
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S002214300001296X
genre Journal of Glaciology
genre_facet Journal of Glaciology
op_source Journal of Glaciology
volume 10, issue 58, page 15-29
ISSN 0022-1430 1727-5652
op_doi https://doi.org/10.1017/s002214300001296x
container_title Journal of Glaciology
container_volume 10
container_issue 58
container_start_page 15
op_container_end_page 29
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