Remote Sensing (Jul 2020)

Gas Emission Craters and Mound-Predecessors in the North of West Siberia, Similarities and Differences

  • Alexander Kizyakov,
  • Marina Leibman,
  • Mikhail Zimin,
  • Anton Sonyushkin,
  • Yury Dvornikov,
  • Artem Khomutov,
  • Damien Dhont,
  • Eric Cauquil,
  • Vladimir Pushkarev,
  • Yulia Stanilovskaya

DOI
https://doi.org/10.3390/rs12142182
Journal volume & issue
Vol. 12, no. 14
p. 2182

Abstract

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Detailed analysis of five gas emission craters (GEC) found in the north of West Siberia is presented. Remote sensing data used in the study is verified by field surveys. Previous studies show that all of the GECs were preceded by mounds 2 to 6 m high and 20 to 55 m in diameter. GECs initially were 20–25 m in diameter, which increased in the first years of their existence. GECs are found in various environmental (shrublands or moss-grass tundra) and geomorphic (river valley, terrace, slopes) conditions. The objective of the paper is to identify common and differing geomorphologic and environmental characteristics of all the five GEC, and their mound-predecessors. The study is based on a compilation of DSMs before and after the GEC formation using very high-resolution satellite imagery stereo pairs compared to ArcticDEM project data. Diversity of terrain and environmental settings along with rather a narrow range of GEC and mound-predecessor morphometric parameters allows concluding that the mechanism of GEC formation is most likely similar for all the GEC and is controlled rather by internal geologic and cryolithologic structure than by any surface properties.

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