Database of Ice-Rich Yedoma Permafrost Version 2 (IRYP v2)

Ice-rich permafrost in the circum-Arctic and sub-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 biogeoch...

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Bibliographic Details
Main Authors: Strauss, Jens, Laboor, Sebastian, Schirrmeister, Lutz, Fedorov, Alexander N, Fortier, Daniel, Froese, Duane G, Fuchs, Matthias, Günther, Frank, Grigoriev, Mikhail N, Harden, Jennifer W, Hugelius, Gustaf, Jongejans, Loeka Laura, Kanevskiy, Mikhail Z, Kholodov, Alexander L, Kunitsky, Viktor, Kraev, Gleb, Lozhkin, Anatoly V, Rivkina, Elizaveta, Shur, Yuri, Siegert, Christine, Spektor, Valentin, Streletskaya, Irina, Ulrich, Mathias, Vartanyan, Sergey L, Veremeeva, Alexandra, Walter Anthony, Katey M, Wetterich, Sebastian, Zimov, Nikita S, Grosse, Guido
Format: Dataset
Language:English
Published: PANGAEA 2022
Subjects:
Alaska North Slope
Aldan River outcrop Mamontova Gora
Allaikha_Yedoma
Arctic Ocean
Area/locality
AWI_Perma
Ayon
base of ice complex
Batagai_2014
Batagai_Kunitsky_2010
Batagay
Yakutia
Beaver_Creek
Belkovsky
Binary Object
BLOSSOM
Blossom Cape
Bolshoy_Lyakhovsky_Island_1999
Bolshoy Lyakhovsky Island
NE Siberia
Buor_Khaya_2010
Buor Khaya
Bykovsky_Peninsula
Cape_Anisii_Kotelnii_Island_2002
Cape_Maly_Chukochy
Cape Mamontov Klyk
Laptev Sea
Central_Yakutia
Central Yakutia
Chukotka
Russia
climate feedbacks
Coast_of_the_East-Siberian_Sea
Col-3_Colville_River_2009
Col-5_Colville_River_2009a
Col-5_Colville_River_2009b
Comment
CRREL
DATE/TIME
Dresvyanyi_Island
Duvanny_Yar
Duvanny_Yar_2008
Duvanny_Yar_2009
Duvannyi_Yar
Duvanny Yar
East Siberian Sea
Elgene_Kyuele_2010a
Elgene_Kyuele_2010b
Event label
Arctic
Climate change
Ice
laptev
north slope
permafrost
Alaska
Siberia
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.940078
https://doi.org/10.1594/PANGAEA.940078
Description
Summary:Ice-rich permafrost in the circum-Arctic and sub-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. 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. Hence, here we synthesize data on the circum-Arctic and sub-Arctic distribution and thickness of Yedoma for compiling a preliminary circum-polar Yedoma map. To harmonize the different datasets and to avoid merging artifacts, we applied map edge cleaning while merging data from different database layers. For the digitalization and spatial integration, we used Adobe Photoshop CS6 (Version: 13.0 x64), Adobe Illustrator CS6 (Version 16.0.3 x64), Avenza MAPublisher 9.5.4 (Illustrator Plug-In) and ESRI ArcGIS 10.6.1 for Desktop (Advanced License). Generally, we followed workflow of figure 2 of the related publication (IRYP Version 2, Strauss et al 2021, https://doi.org/10.3389/feart.2021.758360). 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 domain that covers approximately 2,587,000 km², whereas Yedoma deposits are found within 480,000 km² of this ...

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