Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0

Microtopographic features, such as polygonal ground, are characteristic sources of landscape heterogeneity in the Alaskan Arctic coastal plain. In this study, we analyze the effects of snow redistribution (SR) and lateral subsurface processes on hydrologic and thermal states at a polygonal tundra si...

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Published in:Geoscientific Model Development
Main Authors: Bisht, Gautam, Riley, William J., Wainwright, Haruko M., Dafflon, Baptiste, Yuan, Fengming, Romanovsky, Vladimir E.
Language:unknown
Published: 2023
Subjects:
58 GEOSCIENCES
54 ENVIRONMENTAL SCIENCES
Arctic
Barrow
Tundra
Alaska
Online Access:http://www.osti.gov/servlets/purl/1436169
https://www.osti.gov/biblio/1436169
https://doi.org/10.5194/gmd-11-61-2018
id ftosti:oai:osti.gov:1436169
record_format openpolar
spelling ftosti:oai:osti.gov:1436169 2023-07-30T04:01:41+02:00 Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0 Bisht, Gautam Riley, William J. Wainwright, Haruko M. Dafflon, Baptiste Yuan, Fengming Romanovsky, Vladimir E. 2023-06-27 application/pdf http://www.osti.gov/servlets/purl/1436169 https://www.osti.gov/biblio/1436169 https://doi.org/10.5194/gmd-11-61-2018 unknown http://www.osti.gov/servlets/purl/1436169 https://www.osti.gov/biblio/1436169 https://doi.org/10.5194/gmd-11-61-2018 doi:10.5194/gmd-11-61-2018 58 GEOSCIENCES 54 ENVIRONMENTAL SCIENCES 2023 ftosti https://doi.org/10.5194/gmd-11-61-2018 2023-07-11T09:25:42Z Microtopographic features, such as polygonal ground, are characteristic sources of landscape heterogeneity in the Alaskan Arctic coastal plain. In this study, we analyze the effects of snow redistribution (SR) and lateral subsurface processes on hydrologic and thermal states at a polygonal tundra site near Barrow, Alaska. We extended the land model integrated in the E3SM to redistribute incoming snow by accounting for microtopography and incorporated subsurface lateral transport of water and energy (ELM-3D v1.0). Multiple 10-year-long simulations were performed for a transect across a polygonal tundra landscape at the Barrow Environmental Observatory in Alaska to isolate the impact of SR and subsurface process representation. When SR was included, model predictions better agreed (higher R 2 , lower bias and RMSE) with observed differences in snow depth between polygonal rims and centers. The model was also able to accurately reproduce observed soil temperature vertical profiles in the polygon rims and centers (overall bias, RMSE, and R 2 of 0.59°C, 1.82°C, and 0.99, respectively). The spatial heterogeneity of snow depth during the winter due to SR generated surface soil temperature heterogeneity that propagated in depth and time and led to ~ 10 cm shallower and ~ 5 cm deeper maximum annual thaw depths under the polygon rims and centers, respectively. Additionally, SR led to spatial heterogeneity in surface energy fluxes and soil moisture during the summer. Excluding lateral subsurface hydrologic and thermal processes led to small effects on mean states but an overestimation of spatial variability in soil moisture and soil temperature as subsurface liquid pressure and thermal gradients were artificially prevented from spatially dissipating over time. The effect of lateral subsurface processes on maximum thaw depths was modest, with mean absolute differences of ~ 3 cm. Our integration of three-dimensional subsurface hydrologic and thermal subsurface dynamics in the E3SM land model will facilitate a wide range of ... Other/Unknown Material Arctic Barrow Tundra Alaska SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy) Arctic Geoscientific Model Development 11 1 61 76
institution Open Polar
collection SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy)
op_collection_id ftosti
language unknown
topic 58 GEOSCIENCES
54 ENVIRONMENTAL SCIENCES
spellingShingle 58 GEOSCIENCES
54 ENVIRONMENTAL SCIENCES
Bisht, Gautam
Riley, William J.
Wainwright, Haruko M.
Dafflon, Baptiste
Yuan, Fengming
Romanovsky, Vladimir E.
Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0
topic_facet 58 GEOSCIENCES
54 ENVIRONMENTAL SCIENCES
description Microtopographic features, such as polygonal ground, are characteristic sources of landscape heterogeneity in the Alaskan Arctic coastal plain. In this study, we analyze the effects of snow redistribution (SR) and lateral subsurface processes on hydrologic and thermal states at a polygonal tundra site near Barrow, Alaska. We extended the land model integrated in the E3SM to redistribute incoming snow by accounting for microtopography and incorporated subsurface lateral transport of water and energy (ELM-3D v1.0). Multiple 10-year-long simulations were performed for a transect across a polygonal tundra landscape at the Barrow Environmental Observatory in Alaska to isolate the impact of SR and subsurface process representation. When SR was included, model predictions better agreed (higher R 2 , lower bias and RMSE) with observed differences in snow depth between polygonal rims and centers. The model was also able to accurately reproduce observed soil temperature vertical profiles in the polygon rims and centers (overall bias, RMSE, and R 2 of 0.59°C, 1.82°C, and 0.99, respectively). The spatial heterogeneity of snow depth during the winter due to SR generated surface soil temperature heterogeneity that propagated in depth and time and led to ~ 10 cm shallower and ~ 5 cm deeper maximum annual thaw depths under the polygon rims and centers, respectively. Additionally, SR led to spatial heterogeneity in surface energy fluxes and soil moisture during the summer. Excluding lateral subsurface hydrologic and thermal processes led to small effects on mean states but an overestimation of spatial variability in soil moisture and soil temperature as subsurface liquid pressure and thermal gradients were artificially prevented from spatially dissipating over time. The effect of lateral subsurface processes on maximum thaw depths was modest, with mean absolute differences of ~ 3 cm. Our integration of three-dimensional subsurface hydrologic and thermal subsurface dynamics in the E3SM land model will facilitate a wide range of ...
author Bisht, Gautam
Riley, William J.
Wainwright, Haruko M.
Dafflon, Baptiste
Yuan, Fengming
Romanovsky, Vladimir E.
author_facet Bisht, Gautam
Riley, William J.
Wainwright, Haruko M.
Dafflon, Baptiste
Yuan, Fengming
Romanovsky, Vladimir E.
author_sort Bisht, Gautam
title Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0
title_short Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0
title_full Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0
title_fullStr Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0
title_full_unstemmed Impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using ELM-3D v1.0
title_sort impacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an arctic polygonal ground ecosystem: a case study using elm-3d v1.0
publishDate 2023
url http://www.osti.gov/servlets/purl/1436169
https://www.osti.gov/biblio/1436169
https://doi.org/10.5194/gmd-11-61-2018
geographic Arctic
geographic_facet Arctic
genre Arctic
Barrow
Tundra
Alaska
genre_facet Arctic
Barrow
Tundra
Alaska
op_relation http://www.osti.gov/servlets/purl/1436169
https://www.osti.gov/biblio/1436169
https://doi.org/10.5194/gmd-11-61-2018
doi:10.5194/gmd-11-61-2018
op_doi https://doi.org/10.5194/gmd-11-61-2018
container_title Geoscientific Model Development
container_volume 11
container_issue 1
container_start_page 61
op_container_end_page 76
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