Imaging permafrost active layer thickness under forest for climate model improvement

Imaging permafrost active layer thickness under forest for climate model improvement

Permafrost is an important but poorly known carbon reservoir which is vulnerable to the high latitude accelerated warming. The projected thickening of its superficial seasonally thawed active layer and its induced spatial reorganization will hasten Carbon release in the atmosphere while impacting hy...

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Bibliographic Details
Published in:International journal of applied earth observation and geoinformation Vol. 125; p. 103582
Main Authors: Garestier, F., Guillaso, S., Zakharova, E.A., Kouraev, A.V., Decharme, B., Desyatkin, R.V., Desyatkin, A., Chevalier, T.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2023
Elsevier
Subjects:
Active layer thickness
Environmental Sciences
InSAR
Permafrost
InSAR
Active layer thickness
Permafrost
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Summary:Permafrost is an important but poorly known carbon reservoir which is vulnerable to the high latitude accelerated warming. The projected thickening of its superficial seasonally thawed active layer and its induced spatial reorganization will hasten Carbon release in the atmosphere while impacting hydrology, geochemical transfers, vegetation repartition and ground stability. Active layer thickness (ALT) is only assessed by northern stations, therefore, its spatial distribution remains unknown and lacks for model evaluation, especially under the boreal forest. The all-weather spaceborne InSAR technique has shown only partial sensitivity to ALT through ground movements and remained restricted to non-forested areas. To overcome these limitations, we generalized the ground movement estimation under the omnipresent forest by exploiting the SAR polarimetric information, on the one side, and we isolated the thermodynamical component from the hydrological one during freezeback using a land surface model, on the other side, to extract ALT. Based on a one year TerraSAR-X time serie acquired over the region of Yakustk, we obtained a first high resolution ALT image which reveals unexpected short scale spatial heterogeneity, arranged along anisotrotopic patterns. Its poor comparison with the ALT simulated by the ISBA land surface model, currently used in climate modeling, highlights that climate models, and thus their simulations of greenhouse gas emissions, remain very uncertain over northern high latitudes in absence of regionalized ALT information under the boreal forest. This novel approach, operable using current and future sensors over wide areas, offers a new way forward to improve modeling as well as to optimally monitor global warming from the high latitudes. [Display omitted] •First high-resolution and vegetation independent image of active layer thickness from space.•Polarimetric InSAR extends permafrost survey under forest.•Deformation occurring at freezeback is an indicator of ALT spatial distribution.•Imaging ALT below boreal forest improves climate modeling.
ISSN:1569-8432
1872-826X
DOI:10.1016/j.jag.2023.103582