Geochemical, lithological, and geochronological characteristics of sediment samples from Yedoma and thermokarst deposits in Siberia and Alaska 1998-2016

This dataset merges data from the yedoma domain in Northern Siberia (RU) and Alaska (US). It includes numerous fieldwork campaigns, which take place since 1998 . In total 224 samples from drained Thermokarst, basins and 736 Yedoma samples are included from 27 sites (17 Siberia, 10 Alaska). The labor...

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Bibliographic Details
Main Authors: Strauss, Jens, Laboor, Sebastian, Schirrmeister, Lutz, Grosse, Guido, Fortier, Daniel, Hugelius, Gustaf, Knoblauch, Christian, Romanovsky, Vladimir E, Schädel, Christina, Schneider von Deimling, Thomas, Schuur, Edward A G, Shmelev, Denis, Ulrich, Mathias, Veremeeva, Alexandra
Format: Dataset
Language:English
Published: PANGAEA 2020
Subjects:
AWI_Perma
AWI Arctic Land Expedition
Beringia/Kolyma_2008
BeringiaKolyma_2008_all
climate feedback
Greenhouse gas source
IPA Action Group: The Yedoma Region
Kytalyk2011
Kytalyk2011_all
Late Pleistocene
Lena2002_all
Lena2002
Laptev_Sea_2002
Lena2004
Lena2004_all
Lena2005
Lena2005_all
Lena2006
Lena2006_all
Lena2007
Lena2007_all
Lena2008
Lena2008_all
Lena2009
Lena2009_all
Lena2010
Lena2010_all
Lena2011
Lena2011_all
Lena2012
Lena2012_all
Lena2013
Lena2013_all
Lena2016_spring_all
Lena2016_spring
Lena2016_summer
Lena2016_summer_all
Lena-Anabar2003
Lena-Anabar2003_all
Lena-Delta1998
Lena-Delta1998_all
Lena-Delta1999
Lena-Delta1999_all
Lena-Delta2000
Lena-Delta2000_all
Lena-Delta2001
Lena-Delta2001_all
Lena-Delta2002_all
MULT
Multiple investigations
Arctic
Strauss
Thermokarst
Alaska
Beringia
Siberia
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.919064
https://doi.org/10.1594/PANGAEA.919064
Description
Summary:This dataset merges data from the yedoma domain in Northern Siberia (RU) and Alaska (US). It includes numerous fieldwork campaigns, which take place since 1998 . In total 224 samples from drained Thermokarst, basins and 736 Yedoma samples are included from 27 sites (17 Siberia, 10 Alaska). The laboratory methods are the following: Total organic carbon (TOC) samples were measured with a carbon-nitrogen-sulphur analyser (Elementar Vario EL III) or a TOC analyser (Elementar Vario Max C). For ice content measurement needed for bulk density calculation (bulkdens), samples were weighed in wet and ovendry state during field expeditions or dried in the lab using a freeze dryer. BD was then calculated using its inverse relationship with porosity (see Strauss et al 2013 for details)). Because pore volume is assumed to be ice saturated, the pore volume can be directly inferred from the segregated ice content. Ice content was determined by dying in the file already or with an freeze dryer in the lab. 14C dates were compiled from different sources given with locations in Table S1 in the supplement of Strauss et al 2017. Areal estimation of yedoma and degraded sites were done with literature estimates including general estimates in Strauss et al 2013. Data from local- and regional-scale analyses of Yedoma deposit versus thermokarst-affected areas (summarised in Strauss et al 2013) indicate that ~70% of the Yedoma region area is affected by degradation. The remaining Yedoma deposit extent is ~416,000 km². We further estimate that ~10% of the Yedoma region is covered with lakes and rivers and thus underlain by unfrozen deposits (150,000 km²) and ~4% is covered with other deposits including deltaic and fluvial sediments (50,000 km²), leaving ~56% (775,000 km²) of the Yedoma region covered by frozen thermokarst deposits in drained thermokarst lakes. Detailed information about the methods can be found in Strauss et al 2013 and 2017 and the supplements (https://doi.org/doi:10.1002/2013GL058088, ...

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