Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada

Aspects of the thaw lake cycle were investigated in Old Crow Flats (OCF), a 5600 km2 peatland with thousands of thermokarst lakes in the continuous permafrost of northern Yukon. It is located in the traditional territory of the Vuntut Gwitch'n, who expressed concern that climatic change may be...

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Bibliographic Details
Main Author: Roy-Leveillee, Pascale
Format: Thesis
Language:unknown
Published: 2015
Subjects:
Yukon
Canada
Talik
Old Crow Flats
The Flats
Ice
Old Crow
permafrost
Thermokarst
Tundra
wedge*
Online Access:https://curve.carleton.ca/e0fe1f04-5de1-41b2-92eb-fb4495f715af
http://catalogue.library.carleton.ca/record=
https://doi.org/10.22215/etd/2015-10757
id ftcarletonuniv:oai:curve.carleton.ca:18805
record_format openpolar
spelling ftcarletonuniv:oai:curve.carleton.ca:18805 2023-05-15T16:36:47+02:00 Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada Roy-Leveillee, Pascale 2015 https://curve.carleton.ca/e0fe1f04-5de1-41b2-92eb-fb4495f715af http://catalogue.library.carleton.ca/record= https://doi.org/10.22215/etd/2015-10757 unknown https://curve.carleton.ca/e0fe1f04-5de1-41b2-92eb-fb4495f715af http://catalogue.library.carleton.ca/record= https://doi.org/10.22215/etd/2015-10757 Thesis/Dissertation 2015 ftcarletonuniv https://doi.org/10.22215/etd/2015-10757 2022-01-23T08:22:13Z Aspects of the thaw lake cycle were investigated in Old Crow Flats (OCF), a 5600 km2 peatland with thousands of thermokarst lakes in the continuous permafrost of northern Yukon. It is located in the traditional territory of the Vuntut Gwitch'n, who expressed concern that climatic change may be affecting the permafrost and lakes of OCF. Field data collected in 2008-2011 provided the first assessment of spatial variability in permafrost temperatures across the treeline ecotone in OCF. Lake-bottom temperatures were recorded near the shores of four thermokarst lakes and talik configuration was defined beneath the lakes by jet-drilling to determine conditions controlling permafrost degradation in the area. Analytical and thermal models were used to relate field observations to current theory. Surface and subsurface conditions were examined in three drained lake basins and four expanding lakes to investigate how shore recession, talik development, and sediment deposition during lake expansion control the topography in lake basins after drainage. Permafrost temperature at the depth of zero annual amplitude varied between -5.1ºC and -2.6ºC on the Flats. Within the forest-tundra transition, spatial variability in permafrost temperatures appeared to be controlled by the snow-holding capacity of vegetation and the configuration of land covers in the surrounding landscape, which controlled snow supply. Annual mean lake-bottom temperatures close to shorelines were unaffected by spatial variations in on-ice snow depth, but accumulation of freezing degree-days at the lake bottom varied sufficiently to affect rates of permafrost degradation beneath the lake. Where ice reached the lake bottom, talik development rates were controlled by the ratio of freezing degree days to thawing degree days and the thermal offset in the lake sediment. After lake drainage and permafrost aggradation, thermokarst lake basins in OCF commonly develop depressed margins and raised centres. An elevation difference of up to 2 m was recorded between the margins and centres of drained basins, but this elevation difference was not associated with increased ice-wedge density or increased segregated ice content. A conceptual model based on sediment deposition patterns during lake expansion was proposed to explain the topography of drained lake basins in OCF. Thesis Ice Old Crow permafrost Thermokarst Tundra wedge* Yukon CURVE - Carleton University Research Virtual Environment Yukon Canada Talik ENVELOPE(146.601,146.601,59.667,59.667) Old Crow Flats ENVELOPE(-139.755,-139.755,68.083,68.083) The Flats ENVELOPE(-56.948,-56.948,51.467,51.467)
institution Open Polar
collection CURVE - Carleton University Research Virtual Environment
op_collection_id ftcarletonuniv
language unknown
description Aspects of the thaw lake cycle were investigated in Old Crow Flats (OCF), a 5600 km2 peatland with thousands of thermokarst lakes in the continuous permafrost of northern Yukon. It is located in the traditional territory of the Vuntut Gwitch'n, who expressed concern that climatic change may be affecting the permafrost and lakes of OCF. Field data collected in 2008-2011 provided the first assessment of spatial variability in permafrost temperatures across the treeline ecotone in OCF. Lake-bottom temperatures were recorded near the shores of four thermokarst lakes and talik configuration was defined beneath the lakes by jet-drilling to determine conditions controlling permafrost degradation in the area. Analytical and thermal models were used to relate field observations to current theory. Surface and subsurface conditions were examined in three drained lake basins and four expanding lakes to investigate how shore recession, talik development, and sediment deposition during lake expansion control the topography in lake basins after drainage. Permafrost temperature at the depth of zero annual amplitude varied between -5.1ºC and -2.6ºC on the Flats. Within the forest-tundra transition, spatial variability in permafrost temperatures appeared to be controlled by the snow-holding capacity of vegetation and the configuration of land covers in the surrounding landscape, which controlled snow supply. Annual mean lake-bottom temperatures close to shorelines were unaffected by spatial variations in on-ice snow depth, but accumulation of freezing degree-days at the lake bottom varied sufficiently to affect rates of permafrost degradation beneath the lake. Where ice reached the lake bottom, talik development rates were controlled by the ratio of freezing degree days to thawing degree days and the thermal offset in the lake sediment. After lake drainage and permafrost aggradation, thermokarst lake basins in OCF commonly develop depressed margins and raised centres. An elevation difference of up to 2 m was recorded between the margins and centres of drained basins, but this elevation difference was not associated with increased ice-wedge density or increased segregated ice content. A conceptual model based on sediment deposition patterns during lake expansion was proposed to explain the topography of drained lake basins in OCF.
format Thesis
author Roy-Leveillee, Pascale
spellingShingle Roy-Leveillee, Pascale
Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada
author_facet Roy-Leveillee, Pascale
author_sort Roy-Leveillee, Pascale
title Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada
title_short Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada
title_full Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada
title_fullStr Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada
title_full_unstemmed Permafrost and Thermokarst Lake Dynamics in the Old Crow Flats, Northern Yukon, Canada
title_sort permafrost and thermokarst lake dynamics in the old crow flats, northern yukon, canada
publishDate 2015
url https://curve.carleton.ca/e0fe1f04-5de1-41b2-92eb-fb4495f715af
http://catalogue.library.carleton.ca/record=
https://doi.org/10.22215/etd/2015-10757
long_lat ENVELOPE(146.601,146.601,59.667,59.667)
ENVELOPE(-139.755,-139.755,68.083,68.083)
ENVELOPE(-56.948,-56.948,51.467,51.467)
geographic Yukon
Canada
Talik
Old Crow Flats
The Flats
geographic_facet Yukon
Canada
Talik
Old Crow Flats
The Flats
genre Ice
Old Crow
permafrost
Thermokarst
Tundra
wedge*
Yukon
genre_facet Ice
Old Crow
permafrost
Thermokarst
Tundra
wedge*
Yukon
op_relation https://curve.carleton.ca/e0fe1f04-5de1-41b2-92eb-fb4495f715af
http://catalogue.library.carleton.ca/record=
https://doi.org/10.22215/etd/2015-10757
op_doi https://doi.org/10.22215/etd/2015-10757
_version_ 1766027117333577728

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