Microbial and Geochemical Evidence of Permafrost Formation at Mamontova Gora and Syrdakh, Central Yakutia

Cherbunina, M. Yu.; Karaevskaya, E. S.; Vasil'chuk, Yurij K; Tananaev, Nikita; Shmelev, Denis; Budantseva, Nadine A; Merkel, Alexander Y.; Rakitin, Andrey L.; Mardanov, Andrey V.; Brouchkov, Anatoli; Булат, С. А.

doi:10.3389/feart.2021.739365

Cited by 5 publications

(2 citation statements)

References 96 publications

(109 reference statements)

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“…At present, Yedoma covers ~1,387,000 km 2 or ~6% of the permafrost region in the Northern Hemisphere (~23 × 10 6 km 2 ) 6 . Yedoma is particularly abundant in eastern Siberia and Alaska, 7 but also in central Yakutia 8–12 . Despite its relatively small proportions, the organic‐rich Yedoma preserves ~327–466 Gt of organic carbon, 6,13 accounting for over ~25% of organic carbon stored in northern high‐latitude permafrost (~1,140–1,476 Gt) 1 .…”

Section: Introductionmentioning

confidence: 99%

Origin of CO₂, CH₄, and N₂O trapped in ice wedges in central Yakutia and their relationship

Yang

Ahn

Iwahana

et al. 2022

Permafrost & Periglacial

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Permafrost thawing as a result of global warming is expected to foster the biological remineralization of intact organic carbon and nitrogen and release greenhouse gas (GHG) into the atmosphere, which will have positive feedback for future global warming. However, GHG budgets and their controls in permafrost ground ice are not yet fully understood. This study aims to better understand the control mechanisms of GHG in ground ice by using new gas and chemistry data. In this study, we present new data on carbon dioxide (CO 2 ), methane (CH 4 ), and nitrous oxide (N 2 O) mixing ratios in three different ice wedges, Churapcha, Syrdakh, and Cyuie, located in central Yakutia, Siberia. The GHG mixing ratios in the studied ice wedges range from 0.0% to 13.8% CO 2 , 1.3-91.2 ppm CH 4 , and 0% and 0-1414 ppm N 2 O. In particular, all three ice wedges demonstrate that ice-wedge samples enriched in CH 4 were depleted in N 2 O mixing ratios and vice versa. N 2 -O 2 -Ar compositions indicate that the studied ice wedges were most likely formed by dry snow or hoarfrost, not by freezing of snow meltwater, and the O 2 -consuming biological metabolism was active. Most of the observed GHG mixing ratios cannot be explained without microbial metabolism.The inhibitory impact of denitrification products of nitrate (including N 2 O) could be an important control of the ice-wedge CH 4 mixing ratio.

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Section: Introductionmentioning

confidence: 99%

Origin of CO₂, CH₄, and N₂O trapped in ice wedges in central Yakutia and their relationship

Yang

Ahn

Iwahana

et al. 2022

Permafrost & Periglacial

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“…A similar phenomenon was observed in clay permafrost layer from Western Spitsbergen [ 95 ] and the CRREL Permafrost Tunnel, Alaska, United States [ 96 , 97 ]. The authors of these manuscripts suggested that these taxa could be the markers of climate change; in particular, Firmicutes mark synergetic freezing of sediments (hypothesis of a marker of syngenetic sediment formation) [ 98 ]. Most likely, the unusually high contribution of Firmicutes , with a decrease in Chloroflexota , in the investigated St7Grf6 core could be due to the influence of turbidites that were common in the sediments of the northern basin of Lake Baikal and that could had been formed during the advance and retreat of glaciers in the Late Pleistocene [ 99 , 100 ].…”

Section: Discussionmentioning

confidence: 99%

Microbial Communities in Ferromanganese Sediments from the Northern Basin of Lake Baikal (Russia)

et al. 2023

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We analyzed the amplicons of the 16S rRNA genes and assembled metagenome-assembled genomes (MAGs) of the enrichment culture from the Fe-Mn layer to have an insight into the diversity and metabolic potential of microbial communities from sediments of two sites in the northern basin of Lake Baikal. Organotrophic Chloroflexota, Actionobacteriota, and Acidobacteriota, as well as aerobic and anaerobic participants of the methane cycle (Methylococcales and Methylomirabilota, respectively), dominated the communities of the surface layers. With depth, one of the cores showed a decrease in the proportion of the Chloroflexota and Acidobacteriota members and a substantial increase in the sequences of the phylum Firmicutes. The proportion of the Desulfobacteriota and Thermodesulfovibronia (Nitrospirota) increased in another core. The composition of archaeal communities was similar between the investigated sites and differed in depth. Members of ammonia-oxidizing archaea (Nitrososphaeria) predominated in the surface sediments, with an increase in anaerobic methanotrophs (Methanoperedenaceae) and organoheterotrophs (Bathyarchaeia) in deep sediments. Among the 37 MAGs, Gammaproteobacteria, Desulfobacteriota, and Methylomirabilota were the most common in the microbial community. Metagenome sequencing revealed the assembled genomes genes for N, S, and CH4 metabolism for carbon fixation, and genes encoding Fe and Mn pathways, indicating the likely coexistence of the biogeochemical cycle of various elements and creating certain conditions for the development of taxonomically and functionally diverse microbial communities.

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Ancient permafrost and past permafrost in the Northern Hemisphere

Opel,

Bertran,

Grosse

et al. 2025

Encyclopedia of Quaternary Science

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Microbial and Geochemical Evidence of Permafrost Formation at Mamontova Gora and Syrdakh, Central Yakutia

Cited by 5 publications

References 96 publications

Origin of CO₂, CH₄, and N₂O trapped in ice wedges in central Yakutia and their relationship

Origin of CO₂, CH₄, and N₂O trapped in ice wedges in central Yakutia and their relationship

Microbial Communities in Ferromanganese Sediments from the Northern Basin of Lake Baikal (Russia)

Ancient permafrost and past permafrost in the Northern Hemisphere

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Microbial and Geochemical Evidence of Permafrost Formation at Mamontova Gora and Syrdakh, Central Yakutia

Cited by 5 publications

References 96 publications

Origin of CO2, CH4, and N2O trapped in ice wedges in central Yakutia and their relationship

Origin of CO2, CH4, and N2O trapped in ice wedges in central Yakutia and their relationship

Microbial Communities in Ferromanganese Sediments from the Northern Basin of Lake Baikal (Russia)

Ancient permafrost and past permafrost in the Northern Hemisphere

Contact Info

Product

Resources

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Origin of CO₂, CH₄, and N₂O trapped in ice wedges in central Yakutia and their relationship

Origin of CO₂, CH₄, and N₂O trapped in ice wedges in central Yakutia and their relationship