Active layer thickness as a function of soil water content

Active layer thickness (ALT) is a critical metric for monitoring permafrost. How soil moisture influences ALT depends on two competing hypotheses: (a) increased soil moisture increases the latent heat of fusion for thaw, resulting in shallower active layers, and (b) increased soil moisture increases...

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Vydáno v:	Environmental research letters Ročník 16; číslo 5; s. 55028 - 55036
Hlavní autoři:	Clayton, Leah K, Schaefer, Kevin, Battaglia, Michael J, Bourgeau-Chavez, Laura, Chen, Jingyi, Chen, Richard H, Chen, Albert, Bakian-Dogaheh, Kazem, Grelik, Sarah, Jafarov, Elchin, Liu, Lin, Michaelides, Roger John, Moghaddam, Mahta, Parsekian, Andrew D, Rocha, Adrian V, Schaefer, Sean R, Sullivan, Taylor, Tabatabaeenejad, Alireza, Wang, Kang, Wilson, Cathy J, Zebker, Howard A, Zhang, Tingjun, Zhao, Yuhuan
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Bristol IOP Publishing 01.05.2021
Témata:	active layer thickness Alaska Environmental monitoring ENVIRONMENTAL SCIENCES Heat Heat conductivity Heat of fusion Heat transfer Hypotheses Latent heat Moisture content Permafrost Soil conductivity Soil investigations Soil layers Soil moisture Soil temperature Soil water thaw depth Thermal conductivity Thickness Water content Canada United States > US Alaska
ISSN:	1748-9326, 1748-9326
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Popis
Shrnutí:	Active layer thickness (ALT) is a critical metric for monitoring permafrost. How soil moisture influences ALT depends on two competing hypotheses: (a) increased soil moisture increases the latent heat of fusion for thaw, resulting in shallower active layers, and (b) increased soil moisture increases soil thermal conductivity, resulting in deeper active layers. To investigate their relative influence on thaw depth, we analyzed the Field Measurements of Soil Moisture and Active Layer Thickness (SMALT) in Alaska and Canada dataset, consisting of thousands of measurements of thaw depth and soil moisture collected at dozens of sites across Alaska and Canada as part of NASA’s Arctic Boreal Vulnerability Experiment (ABoVE). As bulk volumetric water content (VWC) integrated over the entire active layer increases, ALT decreases, supporting the latent heat hypothesis. However, as VWC in the top 12 cm of soil increases, ALT increases, supporting the thermal conductivity hypothesis. Regional temperature variations determine the baseline thaw depth while precipitation may influence the sensitivity of ALT to changes in VWC. Soil latent heat dominates over thermal conductivity in determining ALT, and the effect of bulk VWC on ALT appears consistent across sites.
Bibliografie:	ERL-109655.R2 ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 National Aeronautics and Space Administration (NASA) 89233218CNA000001; NNX10AR63G; NNX06AE65G; NNX13AM25G; NNX17AC59A; NA09OAR4310063; ARC 1204167; 80NSSC18K0983 National Science Foundation (NSF) LA-UR-21-22253 USDOE Office of Science (SC). Biological and Environmental Research (BER) National Oceanic and Atmospheric Administration (NOAA)
ISSN:	1748-9326 1748-9326
DOI:	10.1088/1748-9326/abfa4c