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Research into Cryolithozone Spatial Pattern Changes Based on the Mathematical Morphology of Landscapes

Author

Listed:
  • Alexey Victorov

    (IEG RAS, Ulanskii pereulok 13, 101000 Moscow, Russia)

  • Veronika Kapralova

    (IEG RAS, Ulanskii pereulok 13, 101000 Moscow, Russia)

  • Timofey Orlov

    (IEG RAS, Ulanskii pereulok 13, 101000 Moscow, Russia)

  • Olga Trapeznikova

    (IEG RAS, Ulanskii pereulok 13, 101000 Moscow, Russia)

  • Maria Arkhipova

    (IEG RAS, Ulanskii pereulok 13, 101000 Moscow, Russia)

Abstract

Lacustrine thermokarst is receiving great interest as a landscape-forming process. Despite this, research dealing with the quantitative analysis of the changes in the morphological patterns of thermokarst plains under ongoing climate change is lacking. This study aims to analyze changes in the morphological patterns of cryolithozone landscapes based on models provided by the mathematical morphology of landscapes. Our research involves eight key sites within lacustrine thermokarst plains and nine key sites within thermokarst plains with fluvial erosion. These sites differ in geomorphological, geocryological, and physiographical terms, and are situated in different regions such as Yamal, Taimyr, Kolyma lowland, river Lena delta, Baffin’s Land, and Alaska. Archival Corona images (date 1) and high-resolution satellite imagery from June to August 2008–2014 (date 2) were used to obtain the model’s morphometric data. According to quantitative analysis of the models, the morphological pattern of the lacustrine thermokarst plains did not undergo significant changes during the observation period, while 20% of the key sites within the thermokarst plains with fluvial erosion underwent essential changes in lake area distributions. This difference may come from the higher reactivity of the fluvial erosion process on climate change than that of the thermokarst.

Suggested Citation

  • Alexey Victorov & Veronika Kapralova & Timofey Orlov & Olga Trapeznikova & Maria Arkhipova, 2022. "Research into Cryolithozone Spatial Pattern Changes Based on the Mathematical Morphology of Landscapes," Energies, MDPI, vol. 15(3), pages 1-19, February.
    • Handle: RePEc:gam:jeners:v:15:y:2022:i:3:p:1218-:d:744000
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    References listed on IDEAS

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