Formation of Gas-Emission Craters in Northern West Siberia: Shallow Controls

Gas-emission craters discovered in northern West Siberia may arise under a specific combination of shallow and deep-seated permafrost conditions. A formation model for such craters is suggested based on cryological and geological data from the Yamal Peninsula, where shallow permafrost encloses thick...

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Bibliographic Details
Published in:Geosciences
Main Authors: Evgeny Mikhailovich Chuvilin, Natalia Sergeevna Sokolova, Boris Aleksandrovich Bukhanov, Dinara Anvarovna Davletshina, Mikhail Yurievich Spasennykh
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2021
Subjects:
Arctic permafrost
explosive gas emission
crater
ice-rich clay
ground ice
intrapermafrost cavity
cryopeg
methane
Yamal Peninsula
Arctic
Ice
permafrost
Siberia
Online Access:https://doi.org/10.3390/geosciences11090393
Description
Summary:Gas-emission craters discovered in northern West Siberia may arise under a specific combination of shallow and deep-seated permafrost conditions. A formation model for such craters is suggested based on cryological and geological data from the Yamal Peninsula, where shallow permafrost encloses thick ground ice and lenses of intra- and subpermafrost saline cold water (cryopegs). Additionally, the permafrost in the area is highly saturated with gas and stores large accumulations of hydrocarbons that release gas-water fluids rising to the surface through faulted and fractured crusts. Gas emission craters in the Arctic can form in the presence of gas-filled cavities in ground ice caused by climate warming, rich sources of gas that can migrate and accumulate under pressure in the cavities, intrapermafrost gas-water fluids that circulate more rapidly in degrading permafrost, or weak permafrost caps over gas pools.

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