A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland

The area-wide distribution of permafrost is sparsely known in mountainous terrain (e.g. Alps). Permafrost monitoring can only be based on point or small scale measurements such as boreholes, active rock glaciers, BTS measurements or geophysical measurements. To get a better understanding of permafro...

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Main Authors: Mitterer-Hoinkes, Susanna, Lehning, Michael, Phillips, Marcia, Sailer, Rudolf
Format: Text
Language:unknown
Published: 2014
Subjects:
permafrost
Online Access:https://infoscience.epfl.ch/record/197618/files/EGU2013-12958_Hoinkes_Permafrost.pdf
http://infoscience.epfl.ch/record/197618
id ftinfoscience:oai:infoscience.tind.io:197618
record_format openpolar
spelling ftinfoscience:oai:infoscience.tind.io:197618 2023-05-15T17:56:39+02:00 A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland Mitterer-Hoinkes, Susanna Lehning, Michael Phillips, Marcia Sailer, Rudolf 2014-03-14T11:36:27Z https://infoscience.epfl.ch/record/197618/files/EGU2013-12958_Hoinkes_Permafrost.pdf http://infoscience.epfl.ch/record/197618 unknown https://infoscience.epfl.ch/record/197618/files/EGU2013-12958_Hoinkes_Permafrost.pdf http://infoscience.epfl.ch/record/197618 http://infoscience.epfl.ch/record/197618 Text 2014 ftinfoscience 2023-02-13T22:19:51Z The area-wide distribution of permafrost is sparsely known in mountainous terrain (e.g. Alps). Permafrost monitoring can only be based on point or small scale measurements such as boreholes, active rock glaciers, BTS measurements or geophysical measurements. To get a better understanding of permafrost distribution, it is necessary to focus on modeling permafrost temperatures and permafrost distribution patterns. A lot of effort on these topics has been already expended using different kinds of models. In this study, the evolution of subsurface temperatures over successive years has been modeled at the location Ritigraben borehole (Mattertal, Switzerland) by using the one-dimensional snow cover model SNOWPACK. The model needs meteorological input and in our case information on subsurface properties. We used meteorological input variables of the automatic weather station Ritigraben (2630 m) in combination with the automatic weather station Saas Seetal (2480 m). Meteorological data between 2006 and 2011 on an hourly basis were used to drive the model. As former studies showed, the snow amount and the snow cover duration have a great influence on the thermal regime. Low snow heights allow for deeper penetration of low winter temperatures into the ground, strong winters with a high amount of snow attenuate this effect. In addition, variations in subsurface conditions highly influence the temperature regime. Therefore, we conducted sensitivity runs by defining a series of different subsurface properties. The modeled subsurface temperature profiles of Ritigraben were then compared to the measured temperatures in the Ritigraben borehole. This allows a validation of the influence of subsurface properties on the temperature regime. As expected, the influence of the snow cover is stronger than the influence of sub-surface material properties, which are significant, however. The validation presented here serves to prepare a larger spatial simulation with the complex hydro-meteorological 3-dimensional model Alpine 3D, which ... Text permafrost EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne)
institution Open Polar
collection EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne)
op_collection_id ftinfoscience
language unknown
description The area-wide distribution of permafrost is sparsely known in mountainous terrain (e.g. Alps). Permafrost monitoring can only be based on point or small scale measurements such as boreholes, active rock glaciers, BTS measurements or geophysical measurements. To get a better understanding of permafrost distribution, it is necessary to focus on modeling permafrost temperatures and permafrost distribution patterns. A lot of effort on these topics has been already expended using different kinds of models. In this study, the evolution of subsurface temperatures over successive years has been modeled at the location Ritigraben borehole (Mattertal, Switzerland) by using the one-dimensional snow cover model SNOWPACK. The model needs meteorological input and in our case information on subsurface properties. We used meteorological input variables of the automatic weather station Ritigraben (2630 m) in combination with the automatic weather station Saas Seetal (2480 m). Meteorological data between 2006 and 2011 on an hourly basis were used to drive the model. As former studies showed, the snow amount and the snow cover duration have a great influence on the thermal regime. Low snow heights allow for deeper penetration of low winter temperatures into the ground, strong winters with a high amount of snow attenuate this effect. In addition, variations in subsurface conditions highly influence the temperature regime. Therefore, we conducted sensitivity runs by defining a series of different subsurface properties. The modeled subsurface temperature profiles of Ritigraben were then compared to the measured temperatures in the Ritigraben borehole. This allows a validation of the influence of subsurface properties on the temperature regime. As expected, the influence of the snow cover is stronger than the influence of sub-surface material properties, which are significant, however. The validation presented here serves to prepare a larger spatial simulation with the complex hydro-meteorological 3-dimensional model Alpine 3D, which ...
format Text
author Mitterer-Hoinkes, Susanna
Lehning, Michael
Phillips, Marcia
Sailer, Rudolf
spellingShingle Mitterer-Hoinkes, Susanna
Lehning, Michael
Phillips, Marcia
Sailer, Rudolf
A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland
author_facet Mitterer-Hoinkes, Susanna
Lehning, Michael
Phillips, Marcia
Sailer, Rudolf
author_sort Mitterer-Hoinkes, Susanna
title A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland
title_short A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland
title_full A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland
title_fullStr A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland
title_full_unstemmed A comparison between modeled and measured permafrost temperatures at Ritigraben borehole, Switzerland
title_sort comparison between modeled and measured permafrost temperatures at ritigraben borehole, switzerland
publishDate 2014
url https://infoscience.epfl.ch/record/197618/files/EGU2013-12958_Hoinkes_Permafrost.pdf
http://infoscience.epfl.ch/record/197618
genre permafrost
genre_facet permafrost
op_source http://infoscience.epfl.ch/record/197618
op_relation https://infoscience.epfl.ch/record/197618/files/EGU2013-12958_Hoinkes_Permafrost.pdf
http://infoscience.epfl.ch/record/197618
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