Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison

The overall architecture of primary and rootless cones is similar in many respects and therefore differentiation can be challenging. In this thesis, I compare microtextural properties of primary and rootless cone tephra from the 1.9 ka Nesjahraun eruption to investigate the physical properties that...

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Bibliographic Details
Main Author: Tapscott, Sarah, 1992-
Other Authors: Háskóli Íslands
Format: Thesis
Language:English
Published: 2018
Subjects:
Jarðfræði
Eldstöðvar
Hraun
Gjóska
Rannsóknir
Nesjahraun
Iceland
Online Access:http://hdl.handle.net/1946/29497
id ftskemman:oai:skemman.is:1946/29497
record_format openpolar
spelling ftskemman:oai:skemman.is:1946/29497 2023-05-15T16:51:30+02:00 Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison Tapscott, Sarah, 1992- Háskóli Íslands 2018-01 application/pdf http://hdl.handle.net/1946/29497 en eng http://hdl.handle.net/1946/29497 Jarðfræði Eldstöðvar Hraun Gjóska Rannsóknir Nesjahraun Thesis Master's 2018 ftskemman 2022-12-11T06:55:30Z The overall architecture of primary and rootless cones is similar in many respects and therefore differentiation can be challenging. In this thesis, I compare microtextural properties of primary and rootless cone tephra from the 1.9 ka Nesjahraun eruption to investigate the physical properties that allow for robust distinctions between the two volcanic constructs. Previous studies on the microtextural properties of rootless eruption tephra are limited and therefore this type of a study is an ideal avenue to further the knowledge on these multifaceted volcanic formations. The Nesjahraun eruption features both tephra types and thus ideal for comparing the microtextural properties of their tephra clasts. Results show that the primary vent tephra is characterised by narrow, low density distributions. It features coalesced, oval to polygonal shaped vesicle population and an order of magnitude higher vesicle number densities than the rootless cone tephra. These characteristics are attributed to relatively rapid magma ascent during which the decoupling of melt and bubbles resulted in vesicle coalescence. Conversely, the rootless cone tephra is characterised by broad, high density distributions and exhibits a clast vesicularity that is lower than the primary cone tephra by an approximate factor of two. Vesicles are oval to spherical in shape and show minimal evidence of coalescence. The vesicle populations of the rootless cone tephra suggest that the vesicles nucleated and grew during molten fuel-coolant interactions, either due to temporary supersaturation of magmatic volatiles or incorporation of external water into the molten magma. Thesis Iceland Skemman (Iceland) Hraun ENVELOPE(-19.263,-19.263,63.507,63.507)
institution Open Polar
collection Skemman (Iceland)
op_collection_id ftskemman
language English
topic Jarðfræði
Eldstöðvar
Hraun
Gjóska
Rannsóknir
Nesjahraun
spellingShingle Jarðfræði
Eldstöðvar
Hraun
Gjóska
Rannsóknir
Nesjahraun
Tapscott, Sarah, 1992-
Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison
topic_facet Jarðfræði
Eldstöðvar
Hraun
Gjóska
Rannsóknir
Nesjahraun
description The overall architecture of primary and rootless cones is similar in many respects and therefore differentiation can be challenging. In this thesis, I compare microtextural properties of primary and rootless cone tephra from the 1.9 ka Nesjahraun eruption to investigate the physical properties that allow for robust distinctions between the two volcanic constructs. Previous studies on the microtextural properties of rootless eruption tephra are limited and therefore this type of a study is an ideal avenue to further the knowledge on these multifaceted volcanic formations. The Nesjahraun eruption features both tephra types and thus ideal for comparing the microtextural properties of their tephra clasts. Results show that the primary vent tephra is characterised by narrow, low density distributions. It features coalesced, oval to polygonal shaped vesicle population and an order of magnitude higher vesicle number densities than the rootless cone tephra. These characteristics are attributed to relatively rapid magma ascent during which the decoupling of melt and bubbles resulted in vesicle coalescence. Conversely, the rootless cone tephra is characterised by broad, high density distributions and exhibits a clast vesicularity that is lower than the primary cone tephra by an approximate factor of two. Vesicles are oval to spherical in shape and show minimal evidence of coalescence. The vesicle populations of the rootless cone tephra suggest that the vesicles nucleated and grew during molten fuel-coolant interactions, either due to temporary supersaturation of magmatic volatiles or incorporation of external water into the molten magma.
author2 Háskóli Íslands
format Thesis
author Tapscott, Sarah, 1992-
author_facet Tapscott, Sarah, 1992-
author_sort Tapscott, Sarah, 1992-
title Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison
title_short Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison
title_full Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison
title_fullStr Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison
title_full_unstemmed Tephra from Primary and Rootless Cones from the 1.9 ka Nesjahraun Eruption, Þingvellir, SW Iceland: A Comparison
title_sort tephra from primary and rootless cones from the 1.9 ka nesjahraun eruption, þingvellir, sw iceland: a comparison
publishDate 2018
url http://hdl.handle.net/1946/29497
long_lat ENVELOPE(-19.263,-19.263,63.507,63.507)
geographic Hraun
geographic_facet Hraun
genre Iceland
genre_facet Iceland
op_relation http://hdl.handle.net/1946/29497
_version_ 1766041628724690944

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