Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach

Abstract The Hudson Plains, Canada, is one of the largest, undisturbed peatland regions (370,000 km 2 ) in the world. Air temperature in the Hudson Plains is increasing rapidly leading to unprecedented permafrost thaw. The region's remoteness has hindered our knowledge of how permafrost thaw al...

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Published in:Ecohydrology
Main Authors: Mack, Mikhail, Quinton, William, McLaughlin, James, Hopkinson, Christopher
Other Authors: Natural Sciences and Engineering Research Council of Canada
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2023
Subjects:
Canada
Hudson
permafrost
Online Access:http://dx.doi.org/10.1002/eco.2554
https://onlinelibrary.wiley.com/doi/pdf/10.1002/eco.2554
id crwiley:10.1002/eco.2554
record_format openpolar
spelling crwiley:10.1002/eco.2554 2024-06-02T08:12:55+00:00 Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach Mack, Mikhail Quinton, William McLaughlin, James Hopkinson, Christopher Natural Sciences and Engineering Research Council of Canada 2023 http://dx.doi.org/10.1002/eco.2554 https://onlinelibrary.wiley.com/doi/pdf/10.1002/eco.2554 en eng Wiley http://creativecommons.org/licenses/by/4.0/ Ecohydrology volume 16, issue 6 ISSN 1936-0584 1936-0592 journal-article 2023 crwiley https://doi.org/10.1002/eco.2554 2024-05-03T10:47:58Z Abstract The Hudson Plains, Canada, is one of the largest, undisturbed peatland regions (370,000 km 2 ) in the world. Air temperature in the Hudson Plains is increasing rapidly leading to unprecedented permafrost thaw. The region's remoteness has hindered our knowledge of how permafrost thaw alters peatland land cover and hydrological response at multiple scales. To assess which landscapes in the Hudson Plains are vulnerable to such disturbances, we analysed latitudinal distributions of land cover over a 300‐km transect spanning the sporadic (<30% areal) to continuous (>80% areal) permafrost zone in northern Ontario and quantified land cover changes over 40 years using multiple remote sensing datasets (lidar, air photographs, and high‐resolution satellite imagery). We then evaluated these landscapes at a fundamental hydrological unit, the peatland complex, identified five peatland complex types, and conceptualized their potential hydrological response using circuitry analogues. Over four decades, we found that permafrost peatlands declined by 4%, 8.5%, and 2% areal in the sporadic, discontinuous, and continuous permafrost zones, respectively. Circuitry analogues partitioned peatland complexes into their component peatland forms (e.g., permafrost peatland, bog, and fen) and represented each component's hydrological function using an electrical equivalent (e.g., generator, switch, and conductor). When interpreted at the landscape scale, circuitry analogues demonstrated latitudinal patterns in landscape structure (i.e., circuitry wiring) and indicated where permafrost thaw will have the greatest impact on landscape structure (i.e., rewiring) and therefore hydrological response. Based on these analyses, we suggest a 60‐km latitudinal segment (54.5°N to 54.9°N) where peatland complexes are most vulnerable to permafrost‐thaw‐induced land cover and hydrological change and should therefore be the focus of future research and monitoring efforts. Article in Journal/Newspaper permafrost Wiley Online Library Canada Hudson Ecohydrology 16 6
institution Open Polar
collection Wiley Online Library
op_collection_id crwiley
language English
description Abstract The Hudson Plains, Canada, is one of the largest, undisturbed peatland regions (370,000 km 2 ) in the world. Air temperature in the Hudson Plains is increasing rapidly leading to unprecedented permafrost thaw. The region's remoteness has hindered our knowledge of how permafrost thaw alters peatland land cover and hydrological response at multiple scales. To assess which landscapes in the Hudson Plains are vulnerable to such disturbances, we analysed latitudinal distributions of land cover over a 300‐km transect spanning the sporadic (<30% areal) to continuous (>80% areal) permafrost zone in northern Ontario and quantified land cover changes over 40 years using multiple remote sensing datasets (lidar, air photographs, and high‐resolution satellite imagery). We then evaluated these landscapes at a fundamental hydrological unit, the peatland complex, identified five peatland complex types, and conceptualized their potential hydrological response using circuitry analogues. Over four decades, we found that permafrost peatlands declined by 4%, 8.5%, and 2% areal in the sporadic, discontinuous, and continuous permafrost zones, respectively. Circuitry analogues partitioned peatland complexes into their component peatland forms (e.g., permafrost peatland, bog, and fen) and represented each component's hydrological function using an electrical equivalent (e.g., generator, switch, and conductor). When interpreted at the landscape scale, circuitry analogues demonstrated latitudinal patterns in landscape structure (i.e., circuitry wiring) and indicated where permafrost thaw will have the greatest impact on landscape structure (i.e., rewiring) and therefore hydrological response. Based on these analyses, we suggest a 60‐km latitudinal segment (54.5°N to 54.9°N) where peatland complexes are most vulnerable to permafrost‐thaw‐induced land cover and hydrological change and should therefore be the focus of future research and monitoring efforts.
author2 Natural Sciences and Engineering Research Council of Canada
format Article in Journal/Newspaper
author Mack, Mikhail
Quinton, William
McLaughlin, James
Hopkinson, Christopher
spellingShingle Mack, Mikhail
Quinton, William
McLaughlin, James
Hopkinson, Christopher
Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach
author_facet Mack, Mikhail
Quinton, William
McLaughlin, James
Hopkinson, Christopher
author_sort Mack, Mikhail
title Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach
title_short Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach
title_full Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach
title_fullStr Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach
title_full_unstemmed Vulnerability assessment of peatland complexes in the Hudson Plains (Ontario, Canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach
title_sort vulnerability assessment of peatland complexes in the hudson plains (ontario, canada) to permafrost‐thaw‐induced landcover and hydrological change using a multiscale approach
publisher Wiley
publishDate 2023
url http://dx.doi.org/10.1002/eco.2554
https://onlinelibrary.wiley.com/doi/pdf/10.1002/eco.2554
geographic Canada
Hudson
geographic_facet Canada
Hudson
genre permafrost
genre_facet permafrost
op_source Ecohydrology
volume 16, issue 6
ISSN 1936-0584 1936-0592
op_rights http://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.1002/eco.2554
container_title Ecohydrology
container_volume 16
container_issue 6
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