Permafrost Dynamics and Degradation in Polar Arctic From Satellite Radar Observations, Yamal Peninsula

Kanayim Teshebaeva; Ko J. van Huissteden; Helmut Echtler; Alexander V. Puzanov; Dmitry N. Balykin; Anton I. Sinitsky; Nelley M. Kovalevskaya; Han A.J. Dolman

doi:10.3389/feart.2021.741556

Permafrost Dynamics and Degradation in Polar Arctic From Satellite Radar Observations, Yamal Peninsula

Kanayim Teshebaeva^*, Ko J. van Huissteden, Helmut Echtler, Alexander V. Puzanov, Dmitry N. Balykin, Anton I. Sinitsky, Nelley M. Kovalevskaya, Han A.J. Dolman

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

We investigate permafrost surface features revealed from satellite radar data in the Siberian arctic at the Yamal peninsula. Surface dynamics analysis based on SRTM and TanDEM-X DEMs shows up to 2 m net loss of surface relief between 2000 and 2014 indicating a highly dynamic landscape. Surface features for the past 14 years reflect an increase in small stream channels and a number of new lakes that developed, likely caused by permafrost thaw. We used Sentinel-1 SAR imagery to measure permafrost surface changes. Owing to limited observation data we analyzed only 2 years. The InSAR time-series has detected surface displacements in three distinct spatial locations during 2017 and 2018. At these three locations, 60–120 mm/yr rates of seasonal surface permafrost changes are observed. Spatial location of seasonal ground displacements aligns well with lithology. One of them is located on marine sediments and is linked to anthropogenic impact on permafrost stability. Two other areas are located within alluvial sediments and are at the top of topographic elevated zones. We discuss the influence of the geologic environment and the potential effect of local upwelling of gas. These combined analyses of InSAR time-series with analysis of geomorphic features from DEMs present an important tool for continuous process monitoring of surface dynamics as part of a global warming risk assessment.

Original language	English
Article number	741556
Pages (from-to)	1-15
Number of pages	15
Journal	Frontiers in Earth Science
Volume	9
Issue number	December
Early online date	17 Dec 2021
DOIs	https://doi.org/10.3389/feart.2021.741556
Publication status	Published - Dec 2021

Bibliographical note

Funding Information:
This research was funded by Netherlands Organization for Scientific Research NWO grant number ALW-GO/16-13 and Russian State Projects (121031200178-8, 1021032424138-9).

Publisher Copyright:
Copyright © 2021 Teshebaeva, van Huissteden, Echtler, Puzanov, Balykin, Sinitsky, Kovalevskaya and Dolman.

Funding

This research was funded by Netherlands Organization for Scientific Research NWO grant number ALW-GO/16-13 and Russian State Projects (121031200178-8, 1021032424138-9).

Keywords

active layer
Dynamic Landscape
InSAR time-series
permafrost
subsidence

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3389/feart.2021.741556

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title = "Permafrost Dynamics and Degradation in Polar Arctic From Satellite Radar Observations, Yamal Peninsula",

abstract = "We investigate permafrost surface features revealed from satellite radar data in the Siberian arctic at the Yamal peninsula. Surface dynamics analysis based on SRTM and TanDEM-X DEMs shows up to 2 m net loss of surface relief between 2000 and 2014 indicating a highly dynamic landscape. Surface features for the past 14 years reflect an increase in small stream channels and a number of new lakes that developed, likely caused by permafrost thaw. We used Sentinel-1 SAR imagery to measure permafrost surface changes. Owing to limited observation data we analyzed only 2 years. The InSAR time-series has detected surface displacements in three distinct spatial locations during 2017 and 2018. At these three locations, 60–120 mm/yr rates of seasonal surface permafrost changes are observed. Spatial location of seasonal ground displacements aligns well with lithology. One of them is located on marine sediments and is linked to anthropogenic impact on permafrost stability. Two other areas are located within alluvial sediments and are at the top of topographic elevated zones. We discuss the influence of the geologic environment and the potential effect of local upwelling of gas. These combined analyses of InSAR time-series with analysis of geomorphic features from DEMs present an important tool for continuous process monitoring of surface dynamics as part of a global warming risk assessment.",

keywords = "active layer, Dynamic Landscape, InSAR time-series, permafrost, subsidence",

author = "Kanayim Teshebaeva and {van Huissteden}, {Ko J.} and Helmut Echtler and Puzanov, {Alexander V.} and Balykin, {Dmitry N.} and Sinitsky, {Anton I.} and Kovalevskaya, {Nelley M.} and Dolman, {Han A.J.}",

note = "Funding Information: This research was funded by Netherlands Organization for Scientific Research NWO grant number ALW-GO/16-13 and Russian State Projects (121031200178-8, 1021032424138-9). Publisher Copyright: Copyright {\textcopyright} 2021 Teshebaeva, van Huissteden, Echtler, Puzanov, Balykin, Sinitsky, Kovalevskaya and Dolman.",

year = "2021",

month = dec,

doi = "10.3389/feart.2021.741556",

language = "English",

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AU - Teshebaeva, Kanayim

AU - van Huissteden, Ko J.

AU - Echtler, Helmut

AU - Puzanov, Alexander V.

AU - Balykin, Dmitry N.

AU - Sinitsky, Anton I.

AU - Kovalevskaya, Nelley M.

AU - Dolman, Han A.J.

N1 - Funding Information: This research was funded by Netherlands Organization for Scientific Research NWO grant number ALW-GO/16-13 and Russian State Projects (121031200178-8, 1021032424138-9). Publisher Copyright: Copyright © 2021 Teshebaeva, van Huissteden, Echtler, Puzanov, Balykin, Sinitsky, Kovalevskaya and Dolman.

PY - 2021/12

Y1 - 2021/12

N2 - We investigate permafrost surface features revealed from satellite radar data in the Siberian arctic at the Yamal peninsula. Surface dynamics analysis based on SRTM and TanDEM-X DEMs shows up to 2 m net loss of surface relief between 2000 and 2014 indicating a highly dynamic landscape. Surface features for the past 14 years reflect an increase in small stream channels and a number of new lakes that developed, likely caused by permafrost thaw. We used Sentinel-1 SAR imagery to measure permafrost surface changes. Owing to limited observation data we analyzed only 2 years. The InSAR time-series has detected surface displacements in three distinct spatial locations during 2017 and 2018. At these three locations, 60–120 mm/yr rates of seasonal surface permafrost changes are observed. Spatial location of seasonal ground displacements aligns well with lithology. One of them is located on marine sediments and is linked to anthropogenic impact on permafrost stability. Two other areas are located within alluvial sediments and are at the top of topographic elevated zones. We discuss the influence of the geologic environment and the potential effect of local upwelling of gas. These combined analyses of InSAR time-series with analysis of geomorphic features from DEMs present an important tool for continuous process monitoring of surface dynamics as part of a global warming risk assessment.

AB - We investigate permafrost surface features revealed from satellite radar data in the Siberian arctic at the Yamal peninsula. Surface dynamics analysis based on SRTM and TanDEM-X DEMs shows up to 2 m net loss of surface relief between 2000 and 2014 indicating a highly dynamic landscape. Surface features for the past 14 years reflect an increase in small stream channels and a number of new lakes that developed, likely caused by permafrost thaw. We used Sentinel-1 SAR imagery to measure permafrost surface changes. Owing to limited observation data we analyzed only 2 years. The InSAR time-series has detected surface displacements in three distinct spatial locations during 2017 and 2018. At these three locations, 60–120 mm/yr rates of seasonal surface permafrost changes are observed. Spatial location of seasonal ground displacements aligns well with lithology. One of them is located on marine sediments and is linked to anthropogenic impact on permafrost stability. Two other areas are located within alluvial sediments and are at the top of topographic elevated zones. We discuss the influence of the geologic environment and the potential effect of local upwelling of gas. These combined analyses of InSAR time-series with analysis of geomorphic features from DEMs present an important tool for continuous process monitoring of surface dynamics as part of a global warming risk assessment.

KW - active layer

KW - Dynamic Landscape

KW - InSAR time-series

KW - permafrost

KW - subsidence

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SN - 2296-6463

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JO - Frontiers in Earth Science

JF - Frontiers in Earth Science

IS - December

M1 - 741556

ER -

Permafrost Dynamics and Degradation in Polar Arctic From Satellite Radar Observations, Yamal Peninsula

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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