The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada
During the past century, the highest rates of warming have occurred at latitudes above 60oN, where air temperatures have risen at twice the rate of other regions. In northwestern Canada, this warming has coincided with an increase in the frequency, size and severity of wildfires. The influence of su...
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ftwlaurieruniv:oai:scholars.wlu.ca:etd-3163 2023-06-11T04:15:50+02:00 The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada Mathieu, Elyse 2018-01-01T08:00:00Z application/pdf https://scholars.wlu.ca/etd/2048 https://scholars.wlu.ca/context/etd/article/3163/viewcontent/MATHIEU_MSc_Thesis_08_MAY_2018.pdf en eng Scholars Commons @ Laurier https://scholars.wlu.ca/etd/2048 https://scholars.wlu.ca/context/etd/article/3163/viewcontent/MATHIEU_MSc_Thesis_08_MAY_2018.pdf 2 Publicly accessible Theses and Dissertations (Comprehensive) fire snowmelt energy balance permafrost peat plateau talik active layer hydrology Earth Sciences Environmental Sciences Natural Resources and Conservation Physical Sciences and Mathematics Water Resource Management text 2018 ftwlaurieruniv 2023-05-07T16:38:25Z During the past century, the highest rates of warming have occurred at latitudes above 60oN, where air temperatures have risen at twice the rate of other regions. In northwestern Canada, this warming has coincided with an increase in the frequency, size and severity of wildfires. The influence of such fires on the trajectory of on-going permafrost thaw is not well understood. As a consequence, the combined impacts of climate warming induced permafrost thaw and possible feedbacks arising from wildfires cannot be properly assessed. This study examines the impact of a 2.7 ha low-severity wildfire (July 2014) on water and energy flow processes that affect the timing and magnitude of ground thaw, including seasonal ground thaw, talik development and permafrost thaw. By comparing the end-of-winter snow water equivalent (SWE), rate of snowmelt and surface energy balance one year post-fire (2015) on an adjacent burned and unburned portions of a forested permafrost peat plateau as well as ground thaw and soil moisture three years post-fire (2015-2017). Increase (16%) in snow depth had no significant direct impact on the increased rate and depth of ground thaw. Rather the increase in thaw depths resulted from a combination of factors: a longer thawing period due to an earlier (4 days) snowpack disappearance, an increase in energy available for snowmelt (36%) attributable to greater incoming shortwave radiation from the loss of radiative filtering provided by the canopy, decreased albedo and increased emitted longwave radiation from the charred trunks, contributing to the warmer soil temperatures at greater depths. Bulk thermal conductivity is lower in the burned forest soil as a result of drier soils. Thaw depths in the burned forest are significantly greater than thaw depths in the unburned forest, suggesting that the increased energy availability outweighs the impacts of a drier soil. Ground temperatures at 64 cm did not cool beyond the freezing point depression (-0.3℃), indicating an incomplete overwinter refreezing at ... Text Peat Peat plateau permafrost Subarctic Talik Wilfrid Laurier University, Ontario: Scholars Commons@Laurier Canada Talik ENVELOPE(146.601,146.601,59.667,59.667) |
institution |
Open Polar |
collection |
Wilfrid Laurier University, Ontario: Scholars Commons@Laurier |
op_collection_id |
ftwlaurieruniv |
language |
English |
topic |
fire snowmelt energy balance permafrost peat plateau talik active layer hydrology Earth Sciences Environmental Sciences Natural Resources and Conservation Physical Sciences and Mathematics Water Resource Management |
spellingShingle |
fire snowmelt energy balance permafrost peat plateau talik active layer hydrology Earth Sciences Environmental Sciences Natural Resources and Conservation Physical Sciences and Mathematics Water Resource Management Mathieu, Elyse The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada |
topic_facet |
fire snowmelt energy balance permafrost peat plateau talik active layer hydrology Earth Sciences Environmental Sciences Natural Resources and Conservation Physical Sciences and Mathematics Water Resource Management |
description |
During the past century, the highest rates of warming have occurred at latitudes above 60oN, where air temperatures have risen at twice the rate of other regions. In northwestern Canada, this warming has coincided with an increase in the frequency, size and severity of wildfires. The influence of such fires on the trajectory of on-going permafrost thaw is not well understood. As a consequence, the combined impacts of climate warming induced permafrost thaw and possible feedbacks arising from wildfires cannot be properly assessed. This study examines the impact of a 2.7 ha low-severity wildfire (July 2014) on water and energy flow processes that affect the timing and magnitude of ground thaw, including seasonal ground thaw, talik development and permafrost thaw. By comparing the end-of-winter snow water equivalent (SWE), rate of snowmelt and surface energy balance one year post-fire (2015) on an adjacent burned and unburned portions of a forested permafrost peat plateau as well as ground thaw and soil moisture three years post-fire (2015-2017). Increase (16%) in snow depth had no significant direct impact on the increased rate and depth of ground thaw. Rather the increase in thaw depths resulted from a combination of factors: a longer thawing period due to an earlier (4 days) snowpack disappearance, an increase in energy available for snowmelt (36%) attributable to greater incoming shortwave radiation from the loss of radiative filtering provided by the canopy, decreased albedo and increased emitted longwave radiation from the charred trunks, contributing to the warmer soil temperatures at greater depths. Bulk thermal conductivity is lower in the burned forest soil as a result of drier soils. Thaw depths in the burned forest are significantly greater than thaw depths in the unburned forest, suggesting that the increased energy availability outweighs the impacts of a drier soil. Ground temperatures at 64 cm did not cool beyond the freezing point depression (-0.3℃), indicating an incomplete overwinter refreezing at ... |
format |
Text |
author |
Mathieu, Elyse |
author_facet |
Mathieu, Elyse |
author_sort |
Mathieu, Elyse |
title |
The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada |
title_short |
The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada |
title_full |
The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada |
title_fullStr |
The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada |
title_full_unstemmed |
The Effects of Fire on Snow Accumulation, Snowmelt and Ground Thaw on a Peat Plateau in Subarctic Canada |
title_sort |
effects of fire on snow accumulation, snowmelt and ground thaw on a peat plateau in subarctic canada |
publisher |
Scholars Commons @ Laurier |
publishDate |
2018 |
url |
https://scholars.wlu.ca/etd/2048 https://scholars.wlu.ca/context/etd/article/3163/viewcontent/MATHIEU_MSc_Thesis_08_MAY_2018.pdf |
long_lat |
ENVELOPE(146.601,146.601,59.667,59.667) |
geographic |
Canada Talik |
geographic_facet |
Canada Talik |
genre |
Peat Peat plateau permafrost Subarctic Talik |
genre_facet |
Peat Peat plateau permafrost Subarctic Talik |
op_source |
Theses and Dissertations (Comprehensive) |
op_relation |
https://scholars.wlu.ca/etd/2048 https://scholars.wlu.ca/context/etd/article/3163/viewcontent/MATHIEU_MSc_Thesis_08_MAY_2018.pdf |
op_rights |
2 Publicly accessible |
_version_ |
1768372975099183104 |