High potential for loss of permafrost landforms in a changing climate

The presence of ground ice in Arctic soils exerts a major effect on permafrost hydrology and ecology, and factors prominently into geomorphic landform development. As most ground ice has accumulated in near-surface permafrost, it is sensitive to variations in atmospheric conditions. Typical and regi...

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Published in:Environmental Research Letters
Main Authors: Karjalainen, Olli, Luoto, Miska, Aalto, Juha, Etzelmuller, Bernd, Grosse, Guido, Jones, Benjamin M., Lilleoren, Karianne S., Hjort, Jan
Other Authors: Helsinki Institute of Sustainability Science (HELSUS), BioGeoClimate Modelling Lab, Department of Geosciences and Geography, Institute of Biotechnology (-2009), Division of Urban Geography and Regional Studies
Format: Article in Journal/Newspaper
Language:English
Published: IOP Publishing 2020
Subjects:
permafrost
climate change
ground ice
environmental change
environmental space
geodiversity
statistical ensemble modelling
ICE-WEDGE DEGRADATION
ROCK GLACIERS
NORTHERN-HEMISPHERE
THERMAL REGIME
PENINSULA
TUNDRA
TEMPERATURES
RESPONSES
PATHWAYS
COLLAPSE
1172 Environmental sciences
Arctic
Climate change
Ice
Tundra
wedge*
Online Access:http://hdl.handle.net/10138/320838
id ftunivhelsihelda:oai:helda.helsinki.fi:10138/320838
record_format openpolar
spelling ftunivhelsihelda:oai:helda.helsinki.fi:10138/320838 2024-01-07T09:41:36+01:00 High potential for loss of permafrost landforms in a changing climate Karjalainen, Olli Luoto, Miska Aalto, Juha Etzelmuller, Bernd Grosse, Guido Jones, Benjamin M. Lilleoren, Karianne S. Hjort, Jan Helsinki Institute of Sustainability Science (HELSUS) BioGeoClimate Modelling Lab Department of Geosciences and Geography Institute of Biotechnology (-2009) Division of Urban Geography and Regional Studies 2020-10-30T09:14:01Z 13 application/pdf http://hdl.handle.net/10138/320838 eng eng IOP Publishing 10.1088/1748-9326/abafd5 This study was funded by the Academy of Finland (grants 315519, 307761). BMJ was supported by awards from the US National Science Foundation (OPP-1806213 and ICER-1927872) and GG was supported by ERC PETA-CARB (#338335), the HGF Impulse and Networking Fund (ERC-0013), and NASA NNX08AJ37G. The contribution by BE and KSL was funded by the University of Oslo, Norway. We wish to thank two anonymous reviewers for their highly valuable comments. Karjalainen , O , Luoto , M , Aalto , J , Etzelmuller , B , Grosse , G , Jones , B M , Lilleoren , K S & Hjort , J 2020 , ' High potential for loss of permafrost landforms in a changing climate ' , Environmental Research Letters , vol. 15 , no. 10 , 104065 . https://doi.org/10.1088/1748-9326/abafd5 ORCID: /0000-0001-6203-5143/work/82750187 bfa7bbbe-289c-4123-94f6-e89a1a0fffdd http://hdl.handle.net/10138/320838 000575676700001 cc_by openAccess info:eu-repo/semantics/openAccess permafrost climate change ground ice environmental change environmental space geodiversity statistical ensemble modelling ICE-WEDGE DEGRADATION ROCK GLACIERS NORTHERN-HEMISPHERE THERMAL REGIME PENINSULA TUNDRA TEMPERATURES RESPONSES PATHWAYS COLLAPSE 1172 Environmental sciences Article publishedVersion 2020 ftunivhelsihelda 2023-12-14T00:07:30Z The presence of ground ice in Arctic soils exerts a major effect on permafrost hydrology and ecology, and factors prominently into geomorphic landform development. As most ground ice has accumulated in near-surface permafrost, it is sensitive to variations in atmospheric conditions. Typical and regionally widespread permafrost landforms such as pingos, ice-wedge polygons, and rock glaciers are closely tied to ground ice. However, under ongoing climate change, suitable environmental spaces for preserving landforms associated with ice-rich permafrost may be rapidly disappearing. We deploy a statistical ensemble approach to model, for the first time, the current and potential future environmental conditions of three typical permafrost landforms, pingos, ice-wedge polygons and rock glaciers across the Northern Hemisphere. We show that by midcentury, the landforms are projected to lose more than one-fifth of their suitable environments under a moderate climate scenario (RCP4.5) and on average around one-third under a very high baseline emission scenario (RCP8.5), even when projected new suitable areas for occurrence are considered. By 2061-2080, on average more than 50% of the recent suitable conditions can be lost (RCP8.5). In the case of pingos and ice-wedge polygons, geographical changes are mainly attributed to alterations in thawing-season precipitation and air temperatures. Rock glaciers show air temperature-induced regional changes in suitable conditions strongly constrained by topography and soil properties. The predicted losses could have important implications for Arctic hydrology, geo- and biodiversity, and to the global climate system through changes in biogeochemical cycles governed by the geomorphology of permafrost landscapes. Moreover, our projections provide insights into the circumpolar distribution of various ground ice types and help inventory permafrost landforms in unmapped regions. Peer reviewed Article in Journal/Newspaper Arctic Climate change Ice permafrost Tundra wedge* HELDA – University of Helsinki Open Repository Arctic Environmental Research Letters 15 10 104065
institution Open Polar
collection HELDA – University of Helsinki Open Repository
op_collection_id ftunivhelsihelda
language English
topic permafrost
climate change
ground ice
environmental change
environmental space
geodiversity
statistical ensemble modelling
ICE-WEDGE DEGRADATION
ROCK GLACIERS
NORTHERN-HEMISPHERE
THERMAL REGIME
PENINSULA
TUNDRA
TEMPERATURES
RESPONSES
PATHWAYS
COLLAPSE
1172 Environmental sciences
spellingShingle permafrost
climate change
ground ice
environmental change
environmental space
geodiversity
statistical ensemble modelling
ICE-WEDGE DEGRADATION
ROCK GLACIERS
NORTHERN-HEMISPHERE
THERMAL REGIME
PENINSULA
TUNDRA
TEMPERATURES
RESPONSES
PATHWAYS
COLLAPSE
1172 Environmental sciences
Karjalainen, Olli
Luoto, Miska
Aalto, Juha
Etzelmuller, Bernd
Grosse, Guido
Jones, Benjamin M.
Lilleoren, Karianne S.
Hjort, Jan
High potential for loss of permafrost landforms in a changing climate
topic_facet permafrost
climate change
ground ice
environmental change
environmental space
geodiversity
statistical ensemble modelling
ICE-WEDGE DEGRADATION
ROCK GLACIERS
NORTHERN-HEMISPHERE
THERMAL REGIME
PENINSULA
TUNDRA
TEMPERATURES
RESPONSES
PATHWAYS
COLLAPSE
1172 Environmental sciences
description The presence of ground ice in Arctic soils exerts a major effect on permafrost hydrology and ecology, and factors prominently into geomorphic landform development. As most ground ice has accumulated in near-surface permafrost, it is sensitive to variations in atmospheric conditions. Typical and regionally widespread permafrost landforms such as pingos, ice-wedge polygons, and rock glaciers are closely tied to ground ice. However, under ongoing climate change, suitable environmental spaces for preserving landforms associated with ice-rich permafrost may be rapidly disappearing. We deploy a statistical ensemble approach to model, for the first time, the current and potential future environmental conditions of three typical permafrost landforms, pingos, ice-wedge polygons and rock glaciers across the Northern Hemisphere. We show that by midcentury, the landforms are projected to lose more than one-fifth of their suitable environments under a moderate climate scenario (RCP4.5) and on average around one-third under a very high baseline emission scenario (RCP8.5), even when projected new suitable areas for occurrence are considered. By 2061-2080, on average more than 50% of the recent suitable conditions can be lost (RCP8.5). In the case of pingos and ice-wedge polygons, geographical changes are mainly attributed to alterations in thawing-season precipitation and air temperatures. Rock glaciers show air temperature-induced regional changes in suitable conditions strongly constrained by topography and soil properties. The predicted losses could have important implications for Arctic hydrology, geo- and biodiversity, and to the global climate system through changes in biogeochemical cycles governed by the geomorphology of permafrost landscapes. Moreover, our projections provide insights into the circumpolar distribution of various ground ice types and help inventory permafrost landforms in unmapped regions. Peer reviewed
author2 Helsinki Institute of Sustainability Science (HELSUS)
BioGeoClimate Modelling Lab
Department of Geosciences and Geography
Institute of Biotechnology (-2009)
Division of Urban Geography and Regional Studies
format Article in Journal/Newspaper
author Karjalainen, Olli
Luoto, Miska
Aalto, Juha
Etzelmuller, Bernd
Grosse, Guido
Jones, Benjamin M.
Lilleoren, Karianne S.
Hjort, Jan
author_facet Karjalainen, Olli
Luoto, Miska
Aalto, Juha
Etzelmuller, Bernd
Grosse, Guido
Jones, Benjamin M.
Lilleoren, Karianne S.
Hjort, Jan
author_sort Karjalainen, Olli
title High potential for loss of permafrost landforms in a changing climate
title_short High potential for loss of permafrost landforms in a changing climate
title_full High potential for loss of permafrost landforms in a changing climate
title_fullStr High potential for loss of permafrost landforms in a changing climate
title_full_unstemmed High potential for loss of permafrost landforms in a changing climate
title_sort high potential for loss of permafrost landforms in a changing climate
publisher IOP Publishing
publishDate 2020
url http://hdl.handle.net/10138/320838
geographic Arctic
geographic_facet Arctic
genre Arctic
Climate change
Ice
permafrost
Tundra
wedge*
genre_facet Arctic
Climate change
Ice
permafrost
Tundra
wedge*
op_relation 10.1088/1748-9326/abafd5
This study was funded by the Academy of Finland (grants 315519, 307761). BMJ was supported by awards from the US National Science Foundation (OPP-1806213 and ICER-1927872) and GG was supported by ERC PETA-CARB (#338335), the HGF Impulse and Networking Fund (ERC-0013), and NASA NNX08AJ37G. The contribution by BE and KSL was funded by the University of Oslo, Norway. We wish to thank two anonymous reviewers for their highly valuable comments.
Karjalainen , O , Luoto , M , Aalto , J , Etzelmuller , B , Grosse , G , Jones , B M , Lilleoren , K S & Hjort , J 2020 , ' High potential for loss of permafrost landforms in a changing climate ' , Environmental Research Letters , vol. 15 , no. 10 , 104065 . https://doi.org/10.1088/1748-9326/abafd5
ORCID: /0000-0001-6203-5143/work/82750187
bfa7bbbe-289c-4123-94f6-e89a1a0fffdd
http://hdl.handle.net/10138/320838
000575676700001
op_rights cc_by
openAccess
info:eu-repo/semantics/openAccess
container_title Environmental Research Letters
container_volume 15
container_issue 10
container_start_page 104065
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