A model to characterize soil moisture and organic matter profiles in the permafrost active layer in support of radar remote sensing in Alaskan Arctic tundra

Abstract Organic matter (OM) content and a shallow water table are two key variables that govern the physical properties of the subsurface within the active layer of arctic soils underlain by permafrost, where the majority of biogeochemical activities take place. A detailed understanding of the soil...

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Bibliographic Details
Published in:Environmental Research Letters
Main Authors: Bakian-Dogaheh, Kazem, Chen, Richard H, Yi, Yonghong, Kimball, John S, Moghaddam, Mahta, Tabatabaeenejad, Alireza
Other Authors: NASA Terrestrial Ecology, NASA Earth and Space Science Fellowship
Format: Article in Journal/Newspaper
Language:unknown
Published: IOP Publishing 2022
Subjects:
Arctic
permafrost
Tundra
Online Access:http://dx.doi.org/10.1088/1748-9326/ac4e37
https://iopscience.iop.org/article/10.1088/1748-9326/ac4e37
https://iopscience.iop.org/article/10.1088/1748-9326/ac4e37/pdf
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Summary:Abstract Organic matter (OM) content and a shallow water table are two key variables that govern the physical properties of the subsurface within the active layer of arctic soils underlain by permafrost, where the majority of biogeochemical activities take place. A detailed understanding of the soil moisture and OM profile behavior over short vertical distances through the active layer is needed to adequately model the subsurface physical processes. To observe and characterize the profiles of soil properties in the active layer, we conducted detailed soil sampling at five sites along Dalton Highway on Alaska’s North Slope. These data were used to derive a generalized logistics function to characterize the total OM and water saturation fraction behavior through the profile. Furthermore, a new pedotransfer function was developed to estimate the soil bulk density and porosity—information that is largely missing from existing soil datasets—within each layer, solely from the soil texture (organic and mineral properties). Given the currently sparse soil database of the Alaskan Arctic, these profile models can be highly beneficial for radar remote sensing models to study active layer dynamics.

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