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spelling ftfrontimediafig:oai:figshare.com:article/8221475 2023-05-15T16:36:58+02:00 Presentation_2_Transient Modelling of Permafrost Distribution in Iceland.PPTX Justyna Czekirda Sebastian Westermann Bernd Etzelmüller Tómas Jóhannesson 2019-06-04T04:57:45Z https://doi.org/10.3389/feart.2019.00130.s002 https://figshare.com/articles/Presentation_2_Transient_Modelling_of_Permafrost_Distribution_in_Iceland_PPTX/8221475 unknown doi:10.3389/feart.2019.00130.s002 https://figshare.com/articles/Presentation_2_Transient_Modelling_of_Permafrost_Distribution_in_Iceland_PPTX/8221475 CC BY 4.0 CC-BY Solid Earth Sciences Climate Science Atmospheric Sciences not elsewhere classified Exploration Geochemistry Inorganic Geochemistry Isotope Geochemistry Organic Geochemistry Geochemistry not elsewhere classified Igneous and Metamorphic Petrology Ore Deposit Petrology Palaeontology (incl. Palynology) Structural Geology Tectonics Volcanology Geology not elsewhere classified Seismology and Seismic Exploration Glaciology Hydrogeology Natural Hazards Quaternary Environments Earth Sciences not elsewhere classified Evolutionary Impacts of Climate Change permafrost Iceland transient permafrost modelling maritime permafrost permafrost dynamics Text Presentation 2019 ftfrontimediafig https://doi.org/10.3389/feart.2019.00130.s002 2019-06-05T22:58:31Z Warming and degradation of permafrost during the ongoing climate change is of growing concern. Recently, permafrost thawing has been recognized as a new factor triggering landslides in Iceland. Therefore, there is an increased need for a more thorough understanding of permafrost distribution and the temporal evolution of the ground thermal regime in this region. This study focuses on regional modelling of ground temperature evolution in Iceland for the last six decades (1960–2016) by employing the transient permafrost model CryoGrid 2 at 1-km spatial resolution. To account for the strong wind redistribution of snow in Iceland, we ran three realizations of the model, by forcing the embodied snow water equivalent model with 50, 100, and 150% of gridded precipitation. The modelled permafrost extent strongly depends on snow depth, with around 3–15 times more cells indicating permafrost in the halved-precipitation run in comparison to the other two precipitation runs. A three- to four-decade-long warming trend has led to warming or degradation of permafrost in some areas of Iceland. We roughly estimate that ~11 and 7% of the land area of Iceland was underlain by permafrost during the periods 1980–1989 and 2010–2016, respectively. Model validation with ground temperature measurements and the distribution of permafrost-related landforms, such as active rock glaciers and stable ice-cored moraines, together with palsas and peat plateaus, shows good agreement. The simulation results may be further used as a baseline for modelling of future permafrost evolution at a regional scale or for identification of landslide-susceptible areas in Iceland. Conference Object Ice Iceland palsas Peat permafrost Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Solid Earth Sciences
Climate Science
Atmospheric Sciences not elsewhere classified
Exploration Geochemistry
Inorganic Geochemistry
Isotope Geochemistry
Organic Geochemistry
Geochemistry not elsewhere classified
Igneous and Metamorphic Petrology
Ore Deposit Petrology
Palaeontology (incl. Palynology)
Structural Geology
Tectonics
Volcanology
Geology not elsewhere classified
Seismology and Seismic Exploration
Glaciology
Hydrogeology
Natural Hazards
Quaternary Environments
Earth Sciences not elsewhere classified
Evolutionary Impacts of Climate Change
permafrost
Iceland
transient permafrost modelling
maritime permafrost
permafrost dynamics
spellingShingle Solid Earth Sciences
Climate Science
Atmospheric Sciences not elsewhere classified
Exploration Geochemistry
Inorganic Geochemistry
Isotope Geochemistry
Organic Geochemistry
Geochemistry not elsewhere classified
Igneous and Metamorphic Petrology
Ore Deposit Petrology
Palaeontology (incl. Palynology)
Structural Geology
Tectonics
Volcanology
Geology not elsewhere classified
Seismology and Seismic Exploration
Glaciology
Hydrogeology
Natural Hazards
Quaternary Environments
Earth Sciences not elsewhere classified
Evolutionary Impacts of Climate Change
permafrost
Iceland
transient permafrost modelling
maritime permafrost
permafrost dynamics
Justyna Czekirda
Sebastian Westermann
Bernd Etzelmüller
Tómas Jóhannesson
Presentation_2_Transient Modelling of Permafrost Distribution in Iceland.PPTX
topic_facet Solid Earth Sciences
Climate Science
Atmospheric Sciences not elsewhere classified
Exploration Geochemistry
Inorganic Geochemistry
Isotope Geochemistry
Organic Geochemistry
Geochemistry not elsewhere classified
Igneous and Metamorphic Petrology
Ore Deposit Petrology
Palaeontology (incl. Palynology)
Structural Geology
Tectonics
Volcanology
Geology not elsewhere classified
Seismology and Seismic Exploration
Glaciology
Hydrogeology
Natural Hazards
Quaternary Environments
Earth Sciences not elsewhere classified
Evolutionary Impacts of Climate Change
permafrost
Iceland
transient permafrost modelling
maritime permafrost
permafrost dynamics
description Warming and degradation of permafrost during the ongoing climate change is of growing concern. Recently, permafrost thawing has been recognized as a new factor triggering landslides in Iceland. Therefore, there is an increased need for a more thorough understanding of permafrost distribution and the temporal evolution of the ground thermal regime in this region. This study focuses on regional modelling of ground temperature evolution in Iceland for the last six decades (1960–2016) by employing the transient permafrost model CryoGrid 2 at 1-km spatial resolution. To account for the strong wind redistribution of snow in Iceland, we ran three realizations of the model, by forcing the embodied snow water equivalent model with 50, 100, and 150% of gridded precipitation. The modelled permafrost extent strongly depends on snow depth, with around 3–15 times more cells indicating permafrost in the halved-precipitation run in comparison to the other two precipitation runs. A three- to four-decade-long warming trend has led to warming or degradation of permafrost in some areas of Iceland. We roughly estimate that ~11 and 7% of the land area of Iceland was underlain by permafrost during the periods 1980–1989 and 2010–2016, respectively. Model validation with ground temperature measurements and the distribution of permafrost-related landforms, such as active rock glaciers and stable ice-cored moraines, together with palsas and peat plateaus, shows good agreement. The simulation results may be further used as a baseline for modelling of future permafrost evolution at a regional scale or for identification of landslide-susceptible areas in Iceland.
format Conference Object
author Justyna Czekirda
Sebastian Westermann
Bernd Etzelmüller
Tómas Jóhannesson
author_facet Justyna Czekirda
Sebastian Westermann
Bernd Etzelmüller
Tómas Jóhannesson
author_sort Justyna Czekirda
title Presentation_2_Transient Modelling of Permafrost Distribution in Iceland.PPTX
title_short Presentation_2_Transient Modelling of Permafrost Distribution in Iceland.PPTX
title_full Presentation_2_Transient Modelling of Permafrost Distribution in Iceland.PPTX
title_fullStr Presentation_2_Transient Modelling of Permafrost Distribution in Iceland.PPTX
title_full_unstemmed Presentation_2_Transient Modelling of Permafrost Distribution in Iceland.PPTX
title_sort presentation_2_transient modelling of permafrost distribution in iceland.pptx
publishDate 2019
url https://doi.org/10.3389/feart.2019.00130.s002
https://figshare.com/articles/Presentation_2_Transient_Modelling_of_Permafrost_Distribution_in_Iceland_PPTX/8221475
genre Ice
Iceland
palsas
Peat
permafrost
genre_facet Ice
Iceland
palsas
Peat
permafrost
op_relation doi:10.3389/feart.2019.00130.s002
https://figshare.com/articles/Presentation_2_Transient_Modelling_of_Permafrost_Distribution_in_Iceland_PPTX/8221475
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/feart.2019.00130.s002
_version_ 1766027288991760384