Influence of different digital terrain models (DTMs)on alpine permafrost modeling

The thawing of alpine permafrost due to changes in atmospheric conditions can have a severe impact, e.g., on the stability of rock walls. The energy balance model, PERMEBAL, was developed in order to simulate the changes and distribution of ground surface temperature (GST) in complex high-mountain t...

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Main Authors:	Salzmann, Nadine, Gruber, Stephan, Hugentobler, Marco, Hoelzle, Martin
Language:	English
Published:	2018
Subjects:	permafrost
Online Access:	http://doc.rero.ch/record/310247/files/10666_2006_Article_9065.pdf

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record_format	openpolar
spelling	ftreroch:oai:doc.rero.ch:310247 2023-05-15T17:57:10+02:00 Influence of different digital terrain models (DTMs)on alpine permafrost modeling Salzmann, Nadine Gruber, Stephan Hugentobler, Marco Hoelzle, Martin 2018-06-18T17:45:33Z http://doc.rero.ch/record/310247/files/10666_2006_Article_9065.pdf eng eng http://doc.rero.ch/record/310247/files/10666_2006_Article_9065.pdf 2018 ftreroch 2023-02-16T17:30:47Z The thawing of alpine permafrost due to changes in atmospheric conditions can have a severe impact, e.g., on the stability of rock walls. The energy balance model, PERMEBAL, was developed in order to simulate the changes and distribution of ground surface temperature (GST) in complex high-mountain topography. In such environments, the occurrence of permafrost depends greatly on the topography, and thus, the digital terrain model (DTM) is an important input of PERMEBAL. This study investigates the influence of the DTM on the modeling of the GST. For this purpose, PERMEBAL was run with six different DTMs. Five of the six DTMs are based on the same base data, but were generated using different interpolators. To ensure that only the topographic effect on the GST is calculated, the snow module was turned off and uniform conditions were assumed for the whole test area. The analyses showed that the majority of the deviations between the different model outputs related to a reference DTM had only small differences of up to 1 K, and only a few pixels deviated more than 1 K. However, we also observed that the use of different interpolators for the generation of a DTM can result in large deviations of the model output. These deviations were mainly found at topographically complex locations such as ridges and foot of slopes Other/Unknown Material permafrost RERO DOC Digital Library
institution	Open Polar
collection	RERO DOC Digital Library
op_collection_id	ftreroch
language	English
description	The thawing of alpine permafrost due to changes in atmospheric conditions can have a severe impact, e.g., on the stability of rock walls. The energy balance model, PERMEBAL, was developed in order to simulate the changes and distribution of ground surface temperature (GST) in complex high-mountain topography. In such environments, the occurrence of permafrost depends greatly on the topography, and thus, the digital terrain model (DTM) is an important input of PERMEBAL. This study investigates the influence of the DTM on the modeling of the GST. For this purpose, PERMEBAL was run with six different DTMs. Five of the six DTMs are based on the same base data, but were generated using different interpolators. To ensure that only the topographic effect on the GST is calculated, the snow module was turned off and uniform conditions were assumed for the whole test area. The analyses showed that the majority of the deviations between the different model outputs related to a reference DTM had only small differences of up to 1 K, and only a few pixels deviated more than 1 K. However, we also observed that the use of different interpolators for the generation of a DTM can result in large deviations of the model output. These deviations were mainly found at topographically complex locations such as ridges and foot of slopes
author	Salzmann, Nadine Gruber, Stephan Hugentobler, Marco Hoelzle, Martin
spellingShingle	Salzmann, Nadine Gruber, Stephan Hugentobler, Marco Hoelzle, Martin Influence of different digital terrain models (DTMs)on alpine permafrost modeling
author_facet	Salzmann, Nadine Gruber, Stephan Hugentobler, Marco Hoelzle, Martin
author_sort	Salzmann, Nadine
title	Influence of different digital terrain models (DTMs)on alpine permafrost modeling
title_short	Influence of different digital terrain models (DTMs)on alpine permafrost modeling
title_full	Influence of different digital terrain models (DTMs)on alpine permafrost modeling
title_fullStr	Influence of different digital terrain models (DTMs)on alpine permafrost modeling
title_full_unstemmed	Influence of different digital terrain models (DTMs)on alpine permafrost modeling
title_sort	influence of different digital terrain models (dtms)on alpine permafrost modeling
publishDate	2018
url	http://doc.rero.ch/record/310247/files/10666_2006_Article_9065.pdf
genre	permafrost
genre_facet	permafrost
op_relation	http://doc.rero.ch/record/310247/files/10666_2006_Article_9065.pdf
_version_	1766165555432128512

Influence of different digital terrain models (DTMs)on alpine permafrost modeling

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