Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption

The subglacial 1918 eruption of Katla was one of Iceland’s most powerful of the 20th century, producing ~five times the total eruptive volume (DRE) of both Eyjafjallajökull 2010 and Grímsvötn 2011. However, little is known of the factors that made it such an explosive eruption e.g. was fragmentation...

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Main Authors: Owen, Jacqueline, Tuffen, Hugh, Coats, Becky
Format: Conference Object
Language:unknown
Published: 2015
Subjects:
Katla
Eyjafjallajökull
Online Access:https://eprints.lancs.ac.uk/id/eprint/72319/
id ftulancaster:oai:eprints.lancs.ac.uk:72319
record_format openpolar
spelling ftulancaster:oai:eprints.lancs.ac.uk:72319 2023-08-27T04:09:20+02:00 Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption Owen, Jacqueline Tuffen, Hugh Coats, Becky 2015 https://eprints.lancs.ac.uk/id/eprint/72319/ unknown Owen, Jacqueline and Tuffen, Hugh and Coats, Becky (2015) Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption. In: Volcanic and Magmatic Studies Group 2015, 2015-01-052015-01-07. Contribution to Conference NonPeerReviewed 2015 ftulancaster 2023-08-03T22:27:06Z The subglacial 1918 eruption of Katla was one of Iceland’s most powerful of the 20th century, producing ~five times the total eruptive volume (DRE) of both Eyjafjallajökull 2010 and Grímsvötn 2011. However, little is known of the factors that made it such an explosive eruption e.g. was fragmentation fuelled by meltwater interaction or magmatic volatiles? We have collected both jökulhlaup and airfall tephra from the 1918 Katla eruption. In both deposits, stratigraphy was observed, which has allows us to evaluate different periods during the eruption. The matrix glass water content, measured using Fourier transform infrared spectroscopy (FTIR), was used to infer loading pressure. Jökulhlaup samples suggest quenching pressures of 0.4 to 1.2 MPa. Although this suggests some loading, it is considerably lower than the 3.6 MPa which is the inferred glacial load, based on an ice thickness of 400 m. There is also evidence of clast welding which suggests that post-fragmentation quenching was not instantaneous and may indicate that fragmentation occurred within the conduit. The H2O content of the airfall tephra is consistent with degassing under atmospheric conditions. Total volatile contents measured using Thermogravimetric analysis (TGA) suggest that degassing became more efficient as the eruption progressed . All clasts have a high bubble number density. Vesicles are often spherical with some evidence of coalescence. However, both vesicle size and microlite contents are varied suggesting a variety of cooling rates. Hotstage experiments, performed at eruptive temperatures, indicate bubble growth rates in the order of 0.8-1.6 µm s-1 . Based on models of pyroclasts cooling within meltwater, this suggests that there would be insufficient time for significant post-fragmentation bubble growth within the jökulhlaup samples. This agrees with vesicle textures as there is often no correlation between bubble size and position within the clast. However, some clasts within the airfall deposit seem to have rapidly quenched margins ... Conference Object Eyjafjallajökull Lancaster University: Lancaster Eprints Katla ENVELOPE(-19.062,-19.062,63.631,63.631)
institution Open Polar
collection Lancaster University: Lancaster Eprints
op_collection_id ftulancaster
language unknown
description The subglacial 1918 eruption of Katla was one of Iceland’s most powerful of the 20th century, producing ~five times the total eruptive volume (DRE) of both Eyjafjallajökull 2010 and Grímsvötn 2011. However, little is known of the factors that made it such an explosive eruption e.g. was fragmentation fuelled by meltwater interaction or magmatic volatiles? We have collected both jökulhlaup and airfall tephra from the 1918 Katla eruption. In both deposits, stratigraphy was observed, which has allows us to evaluate different periods during the eruption. The matrix glass water content, measured using Fourier transform infrared spectroscopy (FTIR), was used to infer loading pressure. Jökulhlaup samples suggest quenching pressures of 0.4 to 1.2 MPa. Although this suggests some loading, it is considerably lower than the 3.6 MPa which is the inferred glacial load, based on an ice thickness of 400 m. There is also evidence of clast welding which suggests that post-fragmentation quenching was not instantaneous and may indicate that fragmentation occurred within the conduit. The H2O content of the airfall tephra is consistent with degassing under atmospheric conditions. Total volatile contents measured using Thermogravimetric analysis (TGA) suggest that degassing became more efficient as the eruption progressed . All clasts have a high bubble number density. Vesicles are often spherical with some evidence of coalescence. However, both vesicle size and microlite contents are varied suggesting a variety of cooling rates. Hotstage experiments, performed at eruptive temperatures, indicate bubble growth rates in the order of 0.8-1.6 µm s-1 . Based on models of pyroclasts cooling within meltwater, this suggests that there would be insufficient time for significant post-fragmentation bubble growth within the jökulhlaup samples. This agrees with vesicle textures as there is often no correlation between bubble size and position within the clast. However, some clasts within the airfall deposit seem to have rapidly quenched margins ...
format Conference Object
author Owen, Jacqueline
Tuffen, Hugh
Coats, Becky
spellingShingle Owen, Jacqueline
Tuffen, Hugh
Coats, Becky
Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption
author_facet Owen, Jacqueline
Tuffen, Hugh
Coats, Becky
author_sort Owen, Jacqueline
title Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption
title_short Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption
title_full Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption
title_fullStr Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption
title_full_unstemmed Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption
title_sort bubble, bubble, toil and trouble:the degassing of katla 1918, a subglacial basaltic eruption
publishDate 2015
url https://eprints.lancs.ac.uk/id/eprint/72319/
long_lat ENVELOPE(-19.062,-19.062,63.631,63.631)
geographic Katla
geographic_facet Katla
genre Eyjafjallajökull
genre_facet Eyjafjallajökull
op_relation Owen, Jacqueline and Tuffen, Hugh and Coats, Becky (2015) Bubble, bubble, toil and trouble:the degassing of Katla 1918, a subglacial basaltic eruption. In: Volcanic and Magmatic Studies Group 2015, 2015-01-052015-01-07.
_version_ 1775350523840430080

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