Influences and interactions of inundation, peat, and snow on active layer thickness

Adam L. Atchley; Ethan T. Coon; Scott L. Painter; Dylan R. Harp; Cathy J. Wilson

doi:10.1002/2016GL068550

Influences and interactions of inundation, peat, and snow on active layer thickness

Adam L. Atchley, Ethan T. Coon, Scott L. Painter, Dylan R. Harp, Cathy J. Wilson

Watershed Systems Modeling

Research output: Contribution to journal › Article › peer-review

55 Scopus citations

Abstract

Active layer thickness (ALT), the uppermost layer of soil that thaws on an annual basis, is a direct control on the amount of organic carbon potentially available for decomposition and release to the atmosphere as carbon-rich Arctic permafrost soils thaw in a warming climate. We investigate how key site characteristics affect ALT using an integrated surface/subsurface permafrost thermal hydrology model. ALT is most sensitive to organic layer thickness followed by snow depth but is relatively insensitive to the amount of water on the landscape with other conditions held fixed. The weak ALT sensitivity to subsurface saturation suggests that changes in Arctic landscape hydrology may only have a minor effect on future ALT. However, surface inundation amplifies the sensitivities to the other parameters and under large snowpacks can trigger the formation of near-surface taliks.

Original language	English
Pages (from-to)	5116-5123
Number of pages	8
Journal	Geophysical Research Letters
Volume	43
Issue number	10
DOIs	https://doi.org/10.1002/2016GL068550
State	Published - 2016

Keywords

ALT sensitivity
active layer thickness
inundation and soil moisture
organic soil thermal properties
snow depth
thermal hydrology

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10.1002/2016GL068550

Cite this

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title = "Influences and interactions of inundation, peat, and snow on active layer thickness",

abstract = "Active layer thickness (ALT), the uppermost layer of soil that thaws on an annual basis, is a direct control on the amount of organic carbon potentially available for decomposition and release to the atmosphere as carbon-rich Arctic permafrost soils thaw in a warming climate. We investigate how key site characteristics affect ALT using an integrated surface/subsurface permafrost thermal hydrology model. ALT is most sensitive to organic layer thickness followed by snow depth but is relatively insensitive to the amount of water on the landscape with other conditions held fixed. The weak ALT sensitivity to subsurface saturation suggests that changes in Arctic landscape hydrology may only have a minor effect on future ALT. However, surface inundation amplifies the sensitivities to the other parameters and under large snowpacks can trigger the formation of near-surface taliks.",

keywords = "ALT sensitivity, active layer thickness, inundation and soil moisture, organic soil thermal properties, snow depth, thermal hydrology",

author = "Atchley, {Adam L.} and Coon, {Ethan T.} and Painter, {Scott L.} and Harp, {Dylan R.} and Wilson, {Cathy J.}",

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T1 - Influences and interactions of inundation, peat, and snow on active layer thickness

AU - Atchley, Adam L.

AU - Coon, Ethan T.

AU - Painter, Scott L.

AU - Harp, Dylan R.

AU - Wilson, Cathy J.

N1 - Publisher Copyright: Published 2016. This article is a US Government work and is in the public domain in the United States of America.

PY - 2016

Y1 - 2016

N2 - Active layer thickness (ALT), the uppermost layer of soil that thaws on an annual basis, is a direct control on the amount of organic carbon potentially available for decomposition and release to the atmosphere as carbon-rich Arctic permafrost soils thaw in a warming climate. We investigate how key site characteristics affect ALT using an integrated surface/subsurface permafrost thermal hydrology model. ALT is most sensitive to organic layer thickness followed by snow depth but is relatively insensitive to the amount of water on the landscape with other conditions held fixed. The weak ALT sensitivity to subsurface saturation suggests that changes in Arctic landscape hydrology may only have a minor effect on future ALT. However, surface inundation amplifies the sensitivities to the other parameters and under large snowpacks can trigger the formation of near-surface taliks.

AB - Active layer thickness (ALT), the uppermost layer of soil that thaws on an annual basis, is a direct control on the amount of organic carbon potentially available for decomposition and release to the atmosphere as carbon-rich Arctic permafrost soils thaw in a warming climate. We investigate how key site characteristics affect ALT using an integrated surface/subsurface permafrost thermal hydrology model. ALT is most sensitive to organic layer thickness followed by snow depth but is relatively insensitive to the amount of water on the landscape with other conditions held fixed. The weak ALT sensitivity to subsurface saturation suggests that changes in Arctic landscape hydrology may only have a minor effect on future ALT. However, surface inundation amplifies the sensitivities to the other parameters and under large snowpacks can trigger the formation of near-surface taliks.

KW - ALT sensitivity

KW - active layer thickness

KW - inundation and soil moisture

KW - organic soil thermal properties

KW - snow depth

KW - thermal hydrology

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JO - Geophysical Research Letters

JF - Geophysical Research Letters

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Influences and interactions of inundation, peat, and snow on active layer thickness

Abstract

Keywords

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