Cryogenic Displacement and Accumulation of Biogenic Methane in Frozen Soils

Evidences of highly localized methane fluxes are reported from the Arctic shelf, hot spots of methane emissions in thermokarst lakes, and are believed to evolve to features like Yamal crater on land. The origin of large methane outbursts is problematic. Here we show, that the biogenic methane (13C ≤...

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Bibliographic Details
Published in:Atmosphere
Main Authors: Gleb Kraev, Ernst-Detlef Schulze, Alla Yurova, Alexander Kholodov, Evgeny Chuvilin, Elizaveta Rivkina
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2017
Subjects:
permafrost degradation
freezing soils
cryogenic migration
biogenic methane
Yamal crater
methane hydrates
freezing front
Yedoma
transition layer
Meteorology. Climatology
QC851-999
Arctic
permafrost
Thermokarst
Online Access:https://doi.org/10.3390/atmos8060105
https://doaj.org/article/eba519add22d4cefa7884608fd2a19ce
Description
Summary:Evidences of highly localized methane fluxes are reported from the Arctic shelf, hot spots of methane emissions in thermokarst lakes, and are believed to evolve to features like Yamal crater on land. The origin of large methane outbursts is problematic. Here we show, that the biogenic methane (13C ≤ −71‰) which formed before and during soil freezing is presently held in the permafrost. Field and experimental observations show that methane tends to accumulate at the permafrost table or in the coarse-grained lithological pockets surrounded by the sediments less-permeable for gas. Our field observations, radiocarbon dating, laboratory tests and theory all suggest that depending on the soil structure and freezing dynamics, this methane may have been displaced downwards tens of meters during freezing and has accumulated in the lithological pockets. The initial flux of methane from the one pocket disclosed by drilling was at a rate of more than 2.5 kg C(CH4) m−2 h−1. The age of the methane was 8–18 thousand years younger than the age of the sediments, suggesting that it was displaced tens of meters during freezing. The theoretical background provided the insight on the cryogenic displacement of methane in support of the field and experimental data. Upon freezing of sediments, methane follows water migration and either dissipates in the freezing soils or concentrates at certain places controlled by the freezing rate, initial methane distribution and soil structure.

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