DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF

Ice-rich permafrost in the circum-Arctic and sub-Arctic (hereafter pan-Arctic), such as late Pleistocene Yedoma, are especially prone to degradation due to climate change or human activity. When Yedoma deposits thaw, large amounts of frozen organic matter and biogeochemically relevant elements retur...

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Main Authors: Jens Strauss, Sebastian Laboor, Lutz Schirrmeister, Alexander N. Fedorov, Daniel Fortier, Duane Froese, Matthias Fuchs, Frank Günther, Mikhail Grigoriev, Jennifer Harden, Gustaf Hugelius, Loeka L. Jongejans, Mikhail Kanevskiy, Alexander Kholodov, Viktor Kunitsky, Gleb Kraev, Anatoly Lozhkin, Elizaveta Rivkina, Yuri Shur, Christine Siegert, Valentin Spektor, Irina Streletskaya, Mathias Ulrich, Sergey Vartanyan, Alexandra Veremeeva, Katey Walter Anthony, Sebastian Wetterich, Nikita Zimov, Guido Grosse
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Ice
Online Access:https://doi.org/10.3389/feart.2021.758360.s003
https://figshare.com/articles/dataset/DataSheet3_Circum-Arctic_Map_of_the_Yedoma_Permafrost_Domain_PDF/16894393
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spelling ftfrontimediafig:oai:figshare.com:article/16894393 2023-05-15T14:44:28+02:00 DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF Jens Strauss Sebastian Laboor Lutz Schirrmeister Alexander N. Fedorov Daniel Fortier Duane Froese Matthias Fuchs Frank Günther Mikhail Grigoriev Jennifer Harden Gustaf Hugelius Loeka L. Jongejans Mikhail Kanevskiy Alexander Kholodov Viktor Kunitsky Gleb Kraev Anatoly Lozhkin Elizaveta Rivkina Yuri Shur Christine Siegert Valentin Spektor Irina Streletskaya Mathias Ulrich Sergey Vartanyan Alexandra Veremeeva Katey Walter Anthony Sebastian Wetterich Nikita Zimov Guido Grosse 2021-10-28T04:58:37Z https://doi.org/10.3389/feart.2021.758360.s003 https://figshare.com/articles/dataset/DataSheet3_Circum-Arctic_Map_of_the_Yedoma_Permafrost_Domain_PDF/16894393 unknown doi:10.3389/feart.2021.758360.s003 https://figshare.com/articles/dataset/DataSheet3_Circum-Arctic_Map_of_the_Yedoma_Permafrost_Domain_PDF/16894393 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 late Pleistocene syngenetic permafrost Beringia Siberia Alaska Yukon Dataset 2021 ftfrontimediafig https://doi.org/10.3389/feart.2021.758360.s003 2021-11-04T00:04:29Z Ice-rich permafrost in the circum-Arctic and sub-Arctic (hereafter pan-Arctic), such as late Pleistocene Yedoma, are especially prone to degradation due to climate change or human activity. When Yedoma deposits thaw, large amounts of frozen organic matter and biogeochemically relevant elements return into current biogeochemical cycles. This mobilization of elements has local and global implications: increased thaw in thermokarst or thermal erosion settings enhances greenhouse gas fluxes from permafrost regions. In addition, this ice-rich ground is of special concern for infrastructure stability as the terrain surface settles along with thawing. Finally, understanding the distribution of the Yedoma domain area provides a window into the Pleistocene past and allows reconstruction of Ice Age environmental conditions and past mammoth-steppe landscapes. Therefore, a detailed assessment of the current pan-Arctic Yedoma coverage is of importance to estimate its potential contribution to permafrost-climate feedbacks, assess infrastructure vulnerabilities, and understand past environmental and permafrost dynamics. Building on previous mapping efforts, the objective of this paper is to compile the first digital pan-Arctic Yedoma map and spatial database of Yedoma coverage. Therefore, we 1) synthesized, analyzed, and digitized geological and stratigraphical maps allowing identification of Yedoma occurrence at all available scales, and 2) compiled field data and expert knowledge for creating Yedoma map confidence classes. We used GIS-techniques to vectorize maps and harmonize site information based on expert knowledge. We included a range of attributes for Yedoma areas based on lithological and stratigraphic information from the source maps and assigned three different confidence levels of the presence of Yedoma (confirmed, likely, or uncertain). Using a spatial buffer of 20 km around mapped Yedoma occurrences, we derived an extent of the Yedoma domain. Our result is a vector-based map of the current pan-Arctic Yedoma ... Dataset Arctic Climate change Ice permafrost Thermokarst Alaska Beringia Siberia Yukon Frontiers: Figshare Arctic Yukon
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
late Pleistocene
syngenetic permafrost
Beringia
Siberia
Alaska
Yukon
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
late Pleistocene
syngenetic permafrost
Beringia
Siberia
Alaska
Yukon
Jens Strauss
Sebastian Laboor
Lutz Schirrmeister
Alexander N. Fedorov
Daniel Fortier
Duane Froese
Matthias Fuchs
Frank Günther
Mikhail Grigoriev
Jennifer Harden
Gustaf Hugelius
Loeka L. Jongejans
Mikhail Kanevskiy
Alexander Kholodov
Viktor Kunitsky
Gleb Kraev
Anatoly Lozhkin
Elizaveta Rivkina
Yuri Shur
Christine Siegert
Valentin Spektor
Irina Streletskaya
Mathias Ulrich
Sergey Vartanyan
Alexandra Veremeeva
Katey Walter Anthony
Sebastian Wetterich
Nikita Zimov
Guido Grosse
DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF
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
late Pleistocene
syngenetic permafrost
Beringia
Siberia
Alaska
Yukon
description Ice-rich permafrost in the circum-Arctic and sub-Arctic (hereafter pan-Arctic), such as late Pleistocene Yedoma, are especially prone to degradation due to climate change or human activity. When Yedoma deposits thaw, large amounts of frozen organic matter and biogeochemically relevant elements return into current biogeochemical cycles. This mobilization of elements has local and global implications: increased thaw in thermokarst or thermal erosion settings enhances greenhouse gas fluxes from permafrost regions. In addition, this ice-rich ground is of special concern for infrastructure stability as the terrain surface settles along with thawing. Finally, understanding the distribution of the Yedoma domain area provides a window into the Pleistocene past and allows reconstruction of Ice Age environmental conditions and past mammoth-steppe landscapes. Therefore, a detailed assessment of the current pan-Arctic Yedoma coverage is of importance to estimate its potential contribution to permafrost-climate feedbacks, assess infrastructure vulnerabilities, and understand past environmental and permafrost dynamics. Building on previous mapping efforts, the objective of this paper is to compile the first digital pan-Arctic Yedoma map and spatial database of Yedoma coverage. Therefore, we 1) synthesized, analyzed, and digitized geological and stratigraphical maps allowing identification of Yedoma occurrence at all available scales, and 2) compiled field data and expert knowledge for creating Yedoma map confidence classes. We used GIS-techniques to vectorize maps and harmonize site information based on expert knowledge. We included a range of attributes for Yedoma areas based on lithological and stratigraphic information from the source maps and assigned three different confidence levels of the presence of Yedoma (confirmed, likely, or uncertain). Using a spatial buffer of 20 km around mapped Yedoma occurrences, we derived an extent of the Yedoma domain. Our result is a vector-based map of the current pan-Arctic Yedoma ...
format Dataset
author Jens Strauss
Sebastian Laboor
Lutz Schirrmeister
Alexander N. Fedorov
Daniel Fortier
Duane Froese
Matthias Fuchs
Frank Günther
Mikhail Grigoriev
Jennifer Harden
Gustaf Hugelius
Loeka L. Jongejans
Mikhail Kanevskiy
Alexander Kholodov
Viktor Kunitsky
Gleb Kraev
Anatoly Lozhkin
Elizaveta Rivkina
Yuri Shur
Christine Siegert
Valentin Spektor
Irina Streletskaya
Mathias Ulrich
Sergey Vartanyan
Alexandra Veremeeva
Katey Walter Anthony
Sebastian Wetterich
Nikita Zimov
Guido Grosse
author_facet Jens Strauss
Sebastian Laboor
Lutz Schirrmeister
Alexander N. Fedorov
Daniel Fortier
Duane Froese
Matthias Fuchs
Frank Günther
Mikhail Grigoriev
Jennifer Harden
Gustaf Hugelius
Loeka L. Jongejans
Mikhail Kanevskiy
Alexander Kholodov
Viktor Kunitsky
Gleb Kraev
Anatoly Lozhkin
Elizaveta Rivkina
Yuri Shur
Christine Siegert
Valentin Spektor
Irina Streletskaya
Mathias Ulrich
Sergey Vartanyan
Alexandra Veremeeva
Katey Walter Anthony
Sebastian Wetterich
Nikita Zimov
Guido Grosse
author_sort Jens Strauss
title DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF
title_short DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF
title_full DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF
title_fullStr DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF
title_full_unstemmed DataSheet3_Circum-Arctic Map of the Yedoma Permafrost Domain.PDF
title_sort datasheet3_circum-arctic map of the yedoma permafrost domain.pdf
publishDate 2021
url https://doi.org/10.3389/feart.2021.758360.s003
https://figshare.com/articles/dataset/DataSheet3_Circum-Arctic_Map_of_the_Yedoma_Permafrost_Domain_PDF/16894393
geographic Arctic
Yukon
geographic_facet Arctic
Yukon
genre Arctic
Climate change
Ice
permafrost
Thermokarst
Alaska
Beringia
Siberia
Yukon
genre_facet Arctic
Climate change
Ice
permafrost
Thermokarst
Alaska
Beringia
Siberia
Yukon
op_relation doi:10.3389/feart.2021.758360.s003
https://figshare.com/articles/dataset/DataSheet3_Circum-Arctic_Map_of_the_Yedoma_Permafrost_Domain_PDF/16894393
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/feart.2021.758360.s003
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