Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost

The British Geological Survey, in partnership with the Universities of Sussex and Bonn, is investigating and seeking to prove a new technology concept for the non-invasive volumetric imaging and routine temporal monitoring of the thermal state of permafrost (Figure 1), a key indicator of global clim...

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Main Authors: Kuras, Oliver, Krautblatter, Michael, Murton, Julian, Haslam, Ed, Wilkinson, Paul, Lister, Bob, Meldrum, Phil
Format: Text
Language:English
Published: British Geological Survey 2012
Subjects:
Earth Sciences
permafrost
The Cryosphere
Online Access:http://nora.nerc.ac.uk/id/eprint/502143/
https://nora.nerc.ac.uk/id/eprint/502143/1/Permafrost-CRI_Poster_BGA2012%20v2sm.pdf
id ftnerc:oai:nora.nerc.ac.uk:502143
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:502143 2023-05-15T17:56:50+02:00 Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost Kuras, Oliver Krautblatter, Michael Murton, Julian Haslam, Ed Wilkinson, Paul Lister, Bob Meldrum, Phil 2012 text http://nora.nerc.ac.uk/id/eprint/502143/ https://nora.nerc.ac.uk/id/eprint/502143/1/Permafrost-CRI_Poster_BGA2012%20v2sm.pdf en eng British Geological Survey https://nora.nerc.ac.uk/id/eprint/502143/1/Permafrost-CRI_Poster_BGA2012%20v2sm.pdf Kuras, Oliver; Krautblatter, Michael; Murton, Julian; Haslam, Ed; Wilkinson, Paul; Lister, Bob; Meldrum, Phil. 2012 Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost. [Poster] In: The Geophysics of the Cryosphere and Glacial Products, London, UK, 9-10 Feb 2012. British Geological Survey. (Unpublished) Earth Sciences Publication - Conference Item NonPeerReviewed 2012 ftnerc 2023-02-04T19:37:04Z The British Geological Survey, in partnership with the Universities of Sussex and Bonn, is investigating and seeking to prove a new technology concept for the non-invasive volumetric imaging and routine temporal monitoring of the thermal state of permafrost (Figure 1), a key indicator of global climate change. Capacitive Resistivity Imaging (CRI), a technique based upon a low-frequency, capacitively-coupled measurement approach (Kuras et al., 2006) is applied in order to emulate Electrical Resistivity Tomography (ERT) methodology, but without the need for galvanic contact on frozen soils or rocks. Recent work has shown that temperature-calibrated ERT using galvanic sensors (Figure 2) is capable of imaging recession and re-advance of rock permafrost in response to the ambient temperature regime. However, the use of galvanic sensors can lead to significant practical limitations on field measurements due to high levels of and large variations in contact resistances between sensors and the host material as it freezes and thaws Figure 3). The capacitive technology developed here overcomes this problem and provides a more robust means of making high-quality resistance measurements with permanently installed sensors over time. Reducing the uncertainty associated with uncontrolled noise from galvanic sensors increases the value of time-lapse ERT datasets in the context of monitoring permafrost. Text permafrost The Cryosphere Natural Environment Research Council: NERC Open Research Archive
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language English
topic Earth Sciences
spellingShingle Earth Sciences
Kuras, Oliver
Krautblatter, Michael
Murton, Julian
Haslam, Ed
Wilkinson, Paul
Lister, Bob
Meldrum, Phil
Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost
topic_facet Earth Sciences
description The British Geological Survey, in partnership with the Universities of Sussex and Bonn, is investigating and seeking to prove a new technology concept for the non-invasive volumetric imaging and routine temporal monitoring of the thermal state of permafrost (Figure 1), a key indicator of global climate change. Capacitive Resistivity Imaging (CRI), a technique based upon a low-frequency, capacitively-coupled measurement approach (Kuras et al., 2006) is applied in order to emulate Electrical Resistivity Tomography (ERT) methodology, but without the need for galvanic contact on frozen soils or rocks. Recent work has shown that temperature-calibrated ERT using galvanic sensors (Figure 2) is capable of imaging recession and re-advance of rock permafrost in response to the ambient temperature regime. However, the use of galvanic sensors can lead to significant practical limitations on field measurements due to high levels of and large variations in contact resistances between sensors and the host material as it freezes and thaws Figure 3). The capacitive technology developed here overcomes this problem and provides a more robust means of making high-quality resistance measurements with permanently installed sensors over time. Reducing the uncertainty associated with uncontrolled noise from galvanic sensors increases the value of time-lapse ERT datasets in the context of monitoring permafrost.
format Text
author Kuras, Oliver
Krautblatter, Michael
Murton, Julian
Haslam, Ed
Wilkinson, Paul
Lister, Bob
Meldrum, Phil
author_facet Kuras, Oliver
Krautblatter, Michael
Murton, Julian
Haslam, Ed
Wilkinson, Paul
Lister, Bob
Meldrum, Phil
author_sort Kuras, Oliver
title Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost
title_short Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost
title_full Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost
title_fullStr Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost
title_full_unstemmed Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost
title_sort time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost
publisher British Geological Survey
publishDate 2012
url http://nora.nerc.ac.uk/id/eprint/502143/
https://nora.nerc.ac.uk/id/eprint/502143/1/Permafrost-CRI_Poster_BGA2012%20v2sm.pdf
genre permafrost
The Cryosphere
genre_facet permafrost
The Cryosphere
op_relation https://nora.nerc.ac.uk/id/eprint/502143/1/Permafrost-CRI_Poster_BGA2012%20v2sm.pdf
Kuras, Oliver; Krautblatter, Michael; Murton, Julian; Haslam, Ed; Wilkinson, Paul; Lister, Bob; Meldrum, Phil. 2012 Time-lapse capacitive resistivity imaging: a new technology concept for the monitoring of permafrost. [Poster] In: The Geophysics of the Cryosphere and Glacial Products, London, UK, 9-10 Feb 2012. British Geological Survey. (Unpublished)
_version_ 1766165121529282560

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