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Yedoma

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This article is about a type of permafrost soil. For the rural localities in Russia, see Yedoma (rural locality).
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Yedoma /ˈjɛdəmə/ (Russian: е́дома) is an organic-rich (about 2% carbon by mass) Pleistocene-age permafrost with ice content of 50–90% by volume. Yedoma are abundant in the cold regions of eastern Siberia, such as northern Yakutia, as well as in Alaska and the Yukon.

Characteristics

Alas landscape in Megino-Kangalassky District, Yakutia

The landscape of yedoma areas is of glacier plains and hills with shallow depressions known as alas. Yedoma usually form in lowlands or stretches of land with rolling hills where ice wedge polygonal networks are present, in stable relief features with accumulation zones of poor drainage, severe cold and arid continental climate zones resulting in scanty vegetation cover, intense periglacial weathering processes, as well as the proximity of sediment sources, such as low mountain ranges and foothills.

The amount of carbon trapped in this type of permafrost is much more prevalent than originally thought and may be about 210 to 500 Gt, that is a multiple of the amount of carbon released into the air each year by the burning of fossil fuels. Thawing yedoma is a significant source of atmospheric methane (about 4 Tg of CH
4 per year).

The Yedoma region currently occupies an area of more than one million square kilometers from northeast Siberia to Alaska and Canada, and in many regions is tens of meters thick. During the Last Glacial Maximum, when the global sea level was 120 m lower than that of today, similar deposits covered substantial areas of the exposed northeast Eurasian continental shelves. At the end of the last ice age, at the PleistoceneHolocene transition, thawing yedoma and the resulting thermokarst lakes may have produced 33 to 87% of the high-latitude increase in atmospheric methane concentration.

See also

References

  1. Walter KM, Zimov SA, Chanton JP, Verbyla D, Chapin FS (September 2006). "Methane bubbling from Siberian thaw lakes as a positive feedback to climate warming". Nature. 443 (7107): 71–5. Bibcode:2006Natur.443...71W. doi:10.1038/nature05040. PMID 16957728. S2CID 4415304.
  2. ^ Strauss J, Schirrmeister L, Grosse G, Fortier D, Hugelius G, Knoblauch C, Romanovsky V, Schädel C, von Deimling S, Thomas, Schuur EA, Shmelev D, Ulrich M, Veremeeva A (2017). "Deep Yedoma permafrost: A synthesis of depositional characteristics and carbon vulnerability". Earth-Science Reviews. 172: 75–86. Bibcode:2017ESRv..172...75S. doi:10.1016/j.earscirev.2017.07.007. hdl:21.11116/0000-0003-3BCF-3.
  3. S. V. Tomirdiaro, Evolution of lowland landspapes in Northeastern Asia during late Quaternary time.
  4. Zimov SA, Schuur EAG, Chapin III SF. 2006. Permafrost and the Global Carbon Budget. Science 312(16),1612-1613.
  5. Seth Borenstein (7 September 2006). "Scientists Find New Global Warming "Time Bomb"". Associated Press. Archived from the original on 25 July 2018. Retrieved 6 November 2007.
  6. Walter KM, Edwards ME, Grosse G, Zimov SA, Chapin FS (October 2007). "Thermokarst lakes as a source of atmospheric CH
    4 during the last deglaciation". Science. 318 (5850): 633–6. Bibcode:2007Sci...318..633W. doi:10.1126/science.1142924. PMID 17962561. S2CID 31630756.

Further reading

External links

Scholia has a topic profile for Yedoma.
Periglacial environment
Landforms
Patterned ground
Processes
Soils and deposits
Biomes and ecotones
Climate
Soil classification
World Reference Base
for Soil Resources
(1998–)
USDA soil taxonomy
Other systems
Non-systematic soil types
Types of soil
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