Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut

Arctic permafrost is degrading and is thus releasing nutrients, solutes, sediment and water into soils and freshwater ecosystems. The impacts of this degradation depends on the geochemical characteristics and in large part on the spatial distribution of ground ice and solutes, which is not well-know...

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Published in:Arctic Science
Main Authors: Michel Paquette, Melissa J. Lafrenière, Scott F. Lamoureux
Format: Article in Journal/Newspaper
Language:English
French
Published: Canadian Science Publishing 2023
Subjects:
ground ice
permafrost
polar desert
geochemistry
geomorphology
glace de sol
Environmental sciences
GE1-350
Environmental engineering
TA170-171
Arctic
Nunavut
Resolute Bay
Ice
Online Access:https://doi.org/10.1139/as-2021-0049
https://doaj.org/article/a33fb6d2a9ad48f68273f13ecf5df417
id ftdoajarticles:oai:doaj.org/article:a33fb6d2a9ad48f68273f13ecf5df417
record_format openpolar
spelling ftdoajarticles:oai:doaj.org/article:a33fb6d2a9ad48f68273f13ecf5df417 2023-06-18T03:38:25+02:00 Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut Michel Paquette Melissa J. Lafrenière Scott F. Lamoureux 2023-06-01T00:00:00Z https://doi.org/10.1139/as-2021-0049 https://doaj.org/article/a33fb6d2a9ad48f68273f13ecf5df417 EN FR eng fre Canadian Science Publishing https://cdnsciencepub.com/doi/10.1139/as-2021-0049 https://doaj.org/toc/2368-7460 doi:10.1139/as-2021-0049 2368-7460 https://doaj.org/article/a33fb6d2a9ad48f68273f13ecf5df417 Arctic Science, Vol 9, Iss 2, Pp 465-482 (2023) ground ice permafrost polar desert geochemistry geomorphology glace de sol Environmental sciences GE1-350 Environmental engineering TA170-171 article 2023 ftdoajarticles https://doi.org/10.1139/as-2021-0049 2023-06-04T00:34:28Z Arctic permafrost is degrading and is thus releasing nutrients, solutes, sediment and water into soils and freshwater ecosystems. The impacts of this degradation depends on the geochemical characteristics and in large part on the spatial distribution of ground ice and solutes, which is not well-known in the High Arctic polar desert ecosystems. This research links ground ice and solute concentrations, to establish a framework for identifying locations vulnerable to permafrost degradation. It builds on landscape classifications and cryostratigraphic interpretations of permafrost history. Well-vegetated wetland sites with syngenetic permafrost aggradation show a different geochemical signature from polar desert and epigenetic sites. In wetlands, where ground ice contents were high (<97% volume), total dissolved solute concentrations were relatively low (mean 283.0 ± 327.8 ppm), reflecting a carbonate terrestrial/freshwater setting. In drier sites with epigenetic origin, such as polar deserts, ice contents are low (<47% volume), solute concentrations were high (mean 3248.5 ± 1907.0 ppm, max 12055 ppm) and dominated by Na+ and Cl− ions, reflecting a post-glacial marine inundation during permafrost formation. Dissolved organic carbon and total dissolved nitrogen concentrations usually increased at the top of permafrost and could not be as clearly associated with permafrost history. The research shows that the geochemistry of polar desert permafrost is highly dependent on permafrost history, and it can be estimated using hydrogeomorphological terrain classifications. The lower ice content of polar desert sites indicates that these areas are more vulnerable to thaw relative to the ice-rich wetland sites, and the elevated solute concentrations indicate that these areas could mobilise substantial solutes to downstream environments, should they become hydrologically connected with future warming. Article in Journal/Newspaper Arctic Arctic Ice Nunavut permafrost polar desert Resolute Bay Directory of Open Access Journals: DOAJ Articles Arctic Nunavut Resolute Bay ENVELOPE(-94.842,-94.842,74.677,74.677) Arctic Science
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
French
topic ground ice
permafrost
polar desert
geochemistry
geomorphology
glace de sol
Environmental sciences
GE1-350
Environmental engineering
TA170-171
spellingShingle ground ice
permafrost
polar desert
geochemistry
geomorphology
glace de sol
Environmental sciences
GE1-350
Environmental engineering
TA170-171
Michel Paquette
Melissa J. Lafrenière
Scott F. Lamoureux
Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut
topic_facet ground ice
permafrost
polar desert
geochemistry
geomorphology
glace de sol
Environmental sciences
GE1-350
Environmental engineering
TA170-171
description Arctic permafrost is degrading and is thus releasing nutrients, solutes, sediment and water into soils and freshwater ecosystems. The impacts of this degradation depends on the geochemical characteristics and in large part on the spatial distribution of ground ice and solutes, which is not well-known in the High Arctic polar desert ecosystems. This research links ground ice and solute concentrations, to establish a framework for identifying locations vulnerable to permafrost degradation. It builds on landscape classifications and cryostratigraphic interpretations of permafrost history. Well-vegetated wetland sites with syngenetic permafrost aggradation show a different geochemical signature from polar desert and epigenetic sites. In wetlands, where ground ice contents were high (<97% volume), total dissolved solute concentrations were relatively low (mean 283.0 ± 327.8 ppm), reflecting a carbonate terrestrial/freshwater setting. In drier sites with epigenetic origin, such as polar deserts, ice contents are low (<47% volume), solute concentrations were high (mean 3248.5 ± 1907.0 ppm, max 12055 ppm) and dominated by Na+ and Cl− ions, reflecting a post-glacial marine inundation during permafrost formation. Dissolved organic carbon and total dissolved nitrogen concentrations usually increased at the top of permafrost and could not be as clearly associated with permafrost history. The research shows that the geochemistry of polar desert permafrost is highly dependent on permafrost history, and it can be estimated using hydrogeomorphological terrain classifications. The lower ice content of polar desert sites indicates that these areas are more vulnerable to thaw relative to the ice-rich wetland sites, and the elevated solute concentrations indicate that these areas could mobilise substantial solutes to downstream environments, should they become hydrologically connected with future warming.
format Article in Journal/Newspaper
author Michel Paquette
Melissa J. Lafrenière
Scott F. Lamoureux
author_facet Michel Paquette
Melissa J. Lafrenière
Scott F. Lamoureux
author_sort Michel Paquette
title Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut
title_short Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut
title_full Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut
title_fullStr Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut
title_full_unstemmed Landscape influence on permafrost ground ice geochemistry in a polar desert environment, Resolute Bay, Nunavut
title_sort landscape influence on permafrost ground ice geochemistry in a polar desert environment, resolute bay, nunavut
publisher Canadian Science Publishing
publishDate 2023
url https://doi.org/10.1139/as-2021-0049
https://doaj.org/article/a33fb6d2a9ad48f68273f13ecf5df417
long_lat ENVELOPE(-94.842,-94.842,74.677,74.677)
geographic Arctic
Nunavut
Resolute Bay
geographic_facet Arctic
Nunavut
Resolute Bay
genre Arctic
Arctic
Ice
Nunavut
permafrost
polar desert
Resolute Bay
genre_facet Arctic
Arctic
Ice
Nunavut
permafrost
polar desert
Resolute Bay
op_source Arctic Science, Vol 9, Iss 2, Pp 465-482 (2023)
op_relation https://cdnsciencepub.com/doi/10.1139/as-2021-0049
https://doaj.org/toc/2368-7460
doi:10.1139/as-2021-0049
2368-7460
https://doaj.org/article/a33fb6d2a9ad48f68273f13ecf5df417
op_doi https://doi.org/10.1139/as-2021-0049
container_title Arctic Science
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