Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland.

Grímsvötn, Iceland's most active volcano, is also one of the most powerful geothermal areas in Iceland. This subglacial volcano is located in the centre of Vatnajökull, Europe's largest temperate ice cap, and it erupted most recently in 1998 and 2004. As part of continuing research on heat...

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Published in:Geological Society, London, Special Publications
Main Authors: Stewart, S. F., Pinkerton, H., Blackburn, George Alan, Guðmundsson, M. T.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2007
Subjects:
Crater Lake
Vatnajökull
Ice cap
Iceland
Online Access:https://eprints.lancs.ac.uk/id/eprint/9139/
https://doi.org/10.1144/SP283.3
id ftulancaster:oai:eprints.lancs.ac.uk:9139
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spelling ftulancaster:oai:eprints.lancs.ac.uk:9139 2023-08-27T04:09:58+02:00 Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland. Stewart, S. F. Pinkerton, H. Blackburn, George Alan Guðmundsson, M. T. 2007 https://eprints.lancs.ac.uk/id/eprint/9139/ https://doi.org/10.1144/SP283.3 unknown Stewart, S. F. and Pinkerton, H. and Blackburn, George Alan and Guðmundsson, M. T. (2007) Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland. Geological Society Special Publications, 283. pp. 31-43. ISSN 2041-4927 Journal Article PeerReviewed 2007 ftulancaster https://doi.org/10.1144/SP283.3 2023-08-03T22:16:29Z Grímsvötn, Iceland's most active volcano, is also one of the most powerful geothermal areas in Iceland. This subglacial volcano is located in the centre of Vatnajökull, Europe's largest temperate ice cap, and it erupted most recently in 1998 and 2004. As part of continuing research on heat flux, morphological changes and volcanic processes at Grímsvötn, thermal anomalies were mapped using remote sensing Natural Environmental Research Council (NERC) Airborne Research and Survey Facility (ARSF) data. The 2001 Airborne Thematic Mapper (ATM) thermal images of the Grímsvötn subglacial caldera reveal distinct areas of geothermal activity and provide an overview of the thermal anomalies associated with water and rock exposures. A crater lake located on the 1998 eruption site is shown to have a surface temperature of 30–35 °C. There is a good correlation between the ARSF data and ground-based temperature measurements. The thermal images also revealed previously undetected areas of high heat flow. Factors that complicate the interpretation and comparison of different datasets from an ice-covered area include recent cornice collapses and variations in atmospheric humidity. To reduce uncertainty in future missions, temperature measurements should be made at points whose position is well constrained using differential global positioning system. In addition, humidity and temperature measurements should be made at the time of flight. Article in Journal/Newspaper Ice cap Iceland Vatnajökull Lancaster University: Lancaster Eprints Crater Lake ENVELOPE(-60.667,-60.667,-62.983,-62.983) Vatnajökull ENVELOPE(-16.823,-16.823,64.420,64.420) Geological Society, London, Special Publications 283 1 31 43
institution Open Polar
collection Lancaster University: Lancaster Eprints
op_collection_id ftulancaster
language unknown
description Grímsvötn, Iceland's most active volcano, is also one of the most powerful geothermal areas in Iceland. This subglacial volcano is located in the centre of Vatnajökull, Europe's largest temperate ice cap, and it erupted most recently in 1998 and 2004. As part of continuing research on heat flux, morphological changes and volcanic processes at Grímsvötn, thermal anomalies were mapped using remote sensing Natural Environmental Research Council (NERC) Airborne Research and Survey Facility (ARSF) data. The 2001 Airborne Thematic Mapper (ATM) thermal images of the Grímsvötn subglacial caldera reveal distinct areas of geothermal activity and provide an overview of the thermal anomalies associated with water and rock exposures. A crater lake located on the 1998 eruption site is shown to have a surface temperature of 30–35 °C. There is a good correlation between the ARSF data and ground-based temperature measurements. The thermal images also revealed previously undetected areas of high heat flow. Factors that complicate the interpretation and comparison of different datasets from an ice-covered area include recent cornice collapses and variations in atmospheric humidity. To reduce uncertainty in future missions, temperature measurements should be made at points whose position is well constrained using differential global positioning system. In addition, humidity and temperature measurements should be made at the time of flight.
format Article in Journal/Newspaper
author Stewart, S. F.
Pinkerton, H.
Blackburn, George Alan
Guðmundsson, M. T.
spellingShingle Stewart, S. F.
Pinkerton, H.
Blackburn, George Alan
Guðmundsson, M. T.
Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland.
author_facet Stewart, S. F.
Pinkerton, H.
Blackburn, George Alan
Guðmundsson, M. T.
author_sort Stewart, S. F.
title Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland.
title_short Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland.
title_full Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland.
title_fullStr Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland.
title_full_unstemmed Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland.
title_sort mapping thermal anomalies using airborne thematic mapper imagery: grímsvötn caldera, vatnajökull, iceland.
publishDate 2007
url https://eprints.lancs.ac.uk/id/eprint/9139/
https://doi.org/10.1144/SP283.3
long_lat ENVELOPE(-60.667,-60.667,-62.983,-62.983)
ENVELOPE(-16.823,-16.823,64.420,64.420)
geographic Crater Lake
Vatnajökull
geographic_facet Crater Lake
Vatnajökull
genre Ice cap
Iceland
Vatnajökull
genre_facet Ice cap
Iceland
Vatnajökull
op_relation Stewart, S. F. and Pinkerton, H. and Blackburn, George Alan and Guðmundsson, M. T. (2007) Mapping thermal anomalies using Airborne Thematic Mapper imagery: Grímsvötn caldera, Vatnajökull, Iceland. Geological Society Special Publications, 283. pp. 31-43. ISSN 2041-4927
op_doi https://doi.org/10.1144/SP283.3
container_title Geological Society, London, Special Publications
container_volume 283
container_issue 1
container_start_page 31
op_container_end_page 43
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