Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic

Polygonal terrain underlain by ice wedges (IWs) are a widespread feature in continuous permafrost and make up 20-35%vol of the ground ice in the upper few meters of permafrost. Despite the numerous contemporary studies examining factors that control ice wedge cracking, development and degradation, r...

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Bibliographic Details
Main Author: Campbell-Heaton, Kethra
Other Authors: Lacelle, Denis
Format: Thesis
Language:English
Published: Université d'Ottawa / University of Ottawa 2020
Subjects:
Ice wedge
Permafrost
Paleotemperature Proxy
Geochemistry
Ground ice
Holocene
Arctic
Eureka
Eureka Sound
Mackay
Ice
ice core
permafrost
wedge*
Online Access:http://hdl.handle.net/10393/41067
https://doi.org/10.20381/ruor-25291
id ftunivottawa:oai:ruor.uottawa.ca:10393/41067
record_format openpolar
spelling ftunivottawa:oai:ruor.uottawa.ca:10393/41067 2023-05-15T15:19:22+02:00 Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic Campbell-Heaton, Kethra Lacelle, Denis 2020-09-21 application/pdf http://hdl.handle.net/10393/41067 https://doi.org/10.20381/ruor-25291 en eng Université d'Ottawa / University of Ottawa http://hdl.handle.net/10393/41067 http://dx.doi.org/10.20381/ruor-25291 Ice wedge Permafrost Paleotemperature Proxy Geochemistry Ground ice Holocene Thesis 2020 ftunivottawa https://doi.org/10.20381/ruor-25291 2021-01-04T18:27:29Z Polygonal terrain underlain by ice wedges (IWs) are a widespread feature in continuous permafrost and make up 20-35%vol of the ground ice in the upper few meters of permafrost. Despite the numerous contemporary studies examining factors that control ice wedge cracking, development and degradation, relatively few have explored ice wedge activity in relation with past climate and vegetation conditions. In the Eureka Sound region, ice wedge polygons dominate the permafrost terrain. Their degradation has started to occur, leading to growth of thaw slumps. The objective of this study is twofold, the principal objective is to investigate the timing of ice wedge activity in the Eureka Sound region using the ¹⁴CDOC dates. The second objective is to evaluate the use of ice wedges as paleotemperature proxies. In July 2018, four ice wedges were sampled at 3-4 depths with each core sample being ~1m in length. In the following summer, eight ice wedges were sampled from the surface, 3-5 core samples were extracted per wedge. Active layer and snow samples were also recovered. Laboratory analyses on the ice wedge samples includes dissolved organic carbon content (DOC) and δ¹³CDOC, radiocarbon dating of DOC, geochemical concentration, and stable water isotopes. The DOC and geochemical results show that snowmelt is the main moisture source for ice wedges in the Eureka Sound region with a minor contribution of leached surface organics. The age (¹⁴CDOC) and size of the studied ice wedges were compared against a cracking occurrence model developed by Mackay (1974), these ice wedges align well with this model and suggest that ice wedge growth is non-linear. Ice wedges in the Eureka Sound region were active during the early to late Holocene (9-2.5 ka). The majority of the activity occurred in the later stage of the early Holocene following regional deglaciation and marine regression. ¹⁴CDOC, high resolution δ¹⁸O and D-excess suggests the occurrence of peripheral cracking in both large and small ice wedges. Rayleigh-type isotopic fractionation was found to occur with depth. As well, post depositional isotopic modification of snow and snowmelt accounts for up to a 4‰ difference of δ18O in surface ice wedge samples. δ¹³CDOC of surface ice wedge samples suggest a habitat transition during the late Holocene from dry meadows to polygonal terrain and the geochemical composition of ice wedges closely reflects that of glacial ice core records. Thesis Arctic Eureka Sound Ice ice core permafrost wedge* uO Research (University of Ottawa - uOttawa) Arctic Eureka ENVELOPE(-85.940,-85.940,79.990,79.990) Eureka Sound ENVELOPE(-84.999,-84.999,79.002,79.002) Mackay ENVELOPE(168.517,168.517,-77.700,-77.700)
institution Open Polar
collection uO Research (University of Ottawa - uOttawa)
op_collection_id ftunivottawa
language English
topic Ice wedge
Permafrost
Paleotemperature Proxy
Geochemistry
Ground ice
Holocene
spellingShingle Ice wedge
Permafrost
Paleotemperature Proxy
Geochemistry
Ground ice
Holocene
Campbell-Heaton, Kethra
Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic
topic_facet Ice wedge
Permafrost
Paleotemperature Proxy
Geochemistry
Ground ice
Holocene
description Polygonal terrain underlain by ice wedges (IWs) are a widespread feature in continuous permafrost and make up 20-35%vol of the ground ice in the upper few meters of permafrost. Despite the numerous contemporary studies examining factors that control ice wedge cracking, development and degradation, relatively few have explored ice wedge activity in relation with past climate and vegetation conditions. In the Eureka Sound region, ice wedge polygons dominate the permafrost terrain. Their degradation has started to occur, leading to growth of thaw slumps. The objective of this study is twofold, the principal objective is to investigate the timing of ice wedge activity in the Eureka Sound region using the ¹⁴CDOC dates. The second objective is to evaluate the use of ice wedges as paleotemperature proxies. In July 2018, four ice wedges were sampled at 3-4 depths with each core sample being ~1m in length. In the following summer, eight ice wedges were sampled from the surface, 3-5 core samples were extracted per wedge. Active layer and snow samples were also recovered. Laboratory analyses on the ice wedge samples includes dissolved organic carbon content (DOC) and δ¹³CDOC, radiocarbon dating of DOC, geochemical concentration, and stable water isotopes. The DOC and geochemical results show that snowmelt is the main moisture source for ice wedges in the Eureka Sound region with a minor contribution of leached surface organics. The age (¹⁴CDOC) and size of the studied ice wedges were compared against a cracking occurrence model developed by Mackay (1974), these ice wedges align well with this model and suggest that ice wedge growth is non-linear. Ice wedges in the Eureka Sound region were active during the early to late Holocene (9-2.5 ka). The majority of the activity occurred in the later stage of the early Holocene following regional deglaciation and marine regression. ¹⁴CDOC, high resolution δ¹⁸O and D-excess suggests the occurrence of peripheral cracking in both large and small ice wedges. Rayleigh-type isotopic fractionation was found to occur with depth. As well, post depositional isotopic modification of snow and snowmelt accounts for up to a 4‰ difference of δ18O in surface ice wedge samples. δ¹³CDOC of surface ice wedge samples suggest a habitat transition during the late Holocene from dry meadows to polygonal terrain and the geochemical composition of ice wedges closely reflects that of glacial ice core records.
author2 Lacelle, Denis
format Thesis
author Campbell-Heaton, Kethra
author_facet Campbell-Heaton, Kethra
author_sort Campbell-Heaton, Kethra
title Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic
title_short Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic
title_full Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic
title_fullStr Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic
title_full_unstemmed Ice Wedge Activity in the Eureka Sound Lowlands, Canadian High Arctic
title_sort ice wedge activity in the eureka sound lowlands, canadian high arctic
publisher Université d'Ottawa / University of Ottawa
publishDate 2020
url http://hdl.handle.net/10393/41067
https://doi.org/10.20381/ruor-25291
long_lat ENVELOPE(-85.940,-85.940,79.990,79.990)
ENVELOPE(-84.999,-84.999,79.002,79.002)
ENVELOPE(168.517,168.517,-77.700,-77.700)
geographic Arctic
Eureka
Eureka Sound
Mackay
geographic_facet Arctic
Eureka
Eureka Sound
Mackay
genre Arctic
Eureka Sound
Ice
ice core
permafrost
wedge*
genre_facet Arctic
Eureka Sound
Ice
ice core
permafrost
wedge*
op_relation http://hdl.handle.net/10393/41067
http://dx.doi.org/10.20381/ruor-25291
op_doi https://doi.org/10.20381/ruor-25291
_version_ 1766349549712965632

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