The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory

The development of a retrogressive thaw slump near Mayo, Yukon Territory, has been traced from initiation by bank erosion (~1949) of the Stewart River to stabilization in 1993-1994. The stabilized headwall of the slump is 450 m from the river, and the slope of the slump floor is 3°. A transect of th...

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Published in:Canadian Journal of Earth Sciences
Main Author: Burn, C R
Format: Article in Journal/Newspaper
Language:English
Published: Canadian Science Publishing 2000
Subjects:
Mayo
permafrost
Yukon
Online Access:http://dx.doi.org/10.1139/e00-017
http://www.nrcresearchpress.com/doi/pdf/10.1139/e00-017
id crcansciencepubl:10.1139/e00-017
record_format openpolar
spelling crcansciencepubl:10.1139/e00-017 2024-09-15T18:18:22+00:00 The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory Burn, C R 2000 http://dx.doi.org/10.1139/e00-017 http://www.nrcresearchpress.com/doi/pdf/10.1139/e00-017 en eng Canadian Science Publishing http://www.nrcresearchpress.com/page/about/CorporateTextAndDataMining Canadian Journal of Earth Sciences volume 37, issue 7, page 967-981 ISSN 0008-4077 1480-3313 journal-article 2000 crcansciencepubl https://doi.org/10.1139/e00-017 2024-08-22T04:08:45Z The development of a retrogressive thaw slump near Mayo, Yukon Territory, has been traced from initiation by bank erosion (~1949) of the Stewart River to stabilization in 1993-1994. The stabilized headwall of the slump is 450 m from the river, and the slope of the slump floor is 3°. A transect of the slump from the river to the stabilized headwall was drilled in July 1995, to determine the extent and rate of permafrost degradation in the slump floor. Thermistors were placed in access tubes to 12 m depth at five sites, four near the transect and one in undisturbed terrain, to determine the magnitude of thermal disturbance due to slump development. Data loggers at the sites recorded the ground temperature at 1 m depth for two years from August 1995. The annual mean ground temperatures measured by the data loggers varied between 1.2° and 1.8°C in the slump, compared with -2.4°C in undisturbed ground, indicating a disturbance of about 4°C due to slumping. The depth of thaw in the slump floor is consistent with the Stefan solution for thawing of permafrost. Conduction is the dominant mode of heat transfer in the slump, where the soil is fine grained and there is almost no organic horizon. Winter ground temperatures at 1 m depth were nearly 6°C warmer in the slump than in the surrounding forest, even though snow depths were similar, due to the release of latent heat during prolonged frost penetration. These data demonstrate the importance of subsurface conditions on near-surface ground temperatures in winter. Article in Journal/Newspaper Mayo permafrost Yukon Canadian Science Publishing Canadian Journal of Earth Sciences 37 7 967 981
institution Open Polar
collection Canadian Science Publishing
op_collection_id crcansciencepubl
language English
description The development of a retrogressive thaw slump near Mayo, Yukon Territory, has been traced from initiation by bank erosion (~1949) of the Stewart River to stabilization in 1993-1994. The stabilized headwall of the slump is 450 m from the river, and the slope of the slump floor is 3°. A transect of the slump from the river to the stabilized headwall was drilled in July 1995, to determine the extent and rate of permafrost degradation in the slump floor. Thermistors were placed in access tubes to 12 m depth at five sites, four near the transect and one in undisturbed terrain, to determine the magnitude of thermal disturbance due to slump development. Data loggers at the sites recorded the ground temperature at 1 m depth for two years from August 1995. The annual mean ground temperatures measured by the data loggers varied between 1.2° and 1.8°C in the slump, compared with -2.4°C in undisturbed ground, indicating a disturbance of about 4°C due to slumping. The depth of thaw in the slump floor is consistent with the Stefan solution for thawing of permafrost. Conduction is the dominant mode of heat transfer in the slump, where the soil is fine grained and there is almost no organic horizon. Winter ground temperatures at 1 m depth were nearly 6°C warmer in the slump than in the surrounding forest, even though snow depths were similar, due to the release of latent heat during prolonged frost penetration. These data demonstrate the importance of subsurface conditions on near-surface ground temperatures in winter.
format Article in Journal/Newspaper
author Burn, C R
spellingShingle Burn, C R
The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory
author_facet Burn, C R
author_sort Burn, C R
title The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory
title_short The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory
title_full The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory
title_fullStr The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory
title_full_unstemmed The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory
title_sort thermal regime of a retrogressive thaw slump near mayo, yukon territory
publisher Canadian Science Publishing
publishDate 2000
url http://dx.doi.org/10.1139/e00-017
http://www.nrcresearchpress.com/doi/pdf/10.1139/e00-017
genre Mayo
permafrost
Yukon
genre_facet Mayo
permafrost
Yukon
op_source Canadian Journal of Earth Sciences
volume 37, issue 7, page 967-981
ISSN 0008-4077 1480-3313
op_rights http://www.nrcresearchpress.com/page/about/CorporateTextAndDataMining
op_doi https://doi.org/10.1139/e00-017
container_title Canadian Journal of Earth Sciences
container_volume 37
container_issue 7
container_start_page 967
op_container_end_page 981
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