Clinopyroxene Dissolution Records Rapid Magma Ascent

Magma ascent rates control volcanic eruption styles. However, the rates at which basaltic magmas ascend through the crust remain highly uncertain. Although recent studies have successfully exploited records of decompression driven degassing to estimate the rates at which H2O-rich basalts ascend, suc...

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Main Authors:	Neave, DA, Maclennan, J
Format:	Article in Journal/Newspaper
Language:	English
Published:	Frontiers Media SA 2020
Subjects:	magma ascent rate plumbing system clinopyroxene dissolution basalt disequilibrium Iceland Borgarhraun Ocean Island
Online Access:	https://www.repository.cam.ac.uk/handle/1810/305366 https://doi.org/10.17863/CAM.52449

id	ftunivcam:oai:www.repository.cam.ac.uk:1810/305366
record_format	openpolar
spelling	ftunivcam:oai:www.repository.cam.ac.uk:1810/305366 2024-01-14T10:07:56+01:00 Clinopyroxene Dissolution Records Rapid Magma Ascent Neave, DA Maclennan, J 2020 application/pdf https://www.repository.cam.ac.uk/handle/1810/305366 https://doi.org/10.17863/CAM.52449 eng eng Frontiers Media SA http://dx.doi.org/10.3389/feart.2020.00188 Frontiers in Earth Science https://www.repository.cam.ac.uk/handle/1810/305366 doi:10.17863/CAM.52449 All rights reserved magma ascent rate plumbing system clinopyroxene dissolution basalt disequilibrium Iceland Article 2020 ftunivcam https://doi.org/10.17863/CAM.52449 2023-12-21T23:23:57Z Magma ascent rates control volcanic eruption styles. However, the rates at which basaltic magmas ascend through the crust remain highly uncertain. Although recent studies have successfully exploited records of decompression driven degassing to estimate the rates at which H2O-rich basalts ascend, such approaches cannot readily be applied to primitive and H2O-poor basalts that erupt in ocean island and mid-ocean ridge settings. Here we present magma ascent rates obtained by modelling the dissolution of clinopyroxene crystals in a wehrlitic nodule from the primitive Borgarhraun lava flow in North Iceland. High-Al2O3 clinopyroxene core compositions are consistent with crystallisation near the Moho (_800 MPa), whereas low-Al2O3 clinopyroxene rims and inclusion compositions are consistent with crystallisation at or near the surface. We interpret low-Al2O3 rims and inclusions as the crystallised remnants of boundary layers formed by the dissolution of high-Al2O3 clinopyroxene during magma ascent. By combining characteristic rim dissolution lengths of 50–100 m with published experimental calibrations of clinopyroxene dissolution behaviour, we estimate that the Borgarhraun magma most likely decompressed and ascended at rates of 3.0–15 kPa.s-1 and 0.11–0.53 m.s-1 respectively. These rates are slightly faster than published estimates obtained by modelling the diffusive re-equilibration of olivine crystals, suggesting that the Borgarhraun magma either accelerated upwards or that it stalled briefly at depth prior to final ascent. Comparisons with other basaltic eruptions indicate that the H2O-poor magma that fed the dominantly effusive Borgarhraun eruption ascended at a similar rate to some H2O-rich magmas that have fed explosive eruptions in arc settings. Thus, magma ascent rates do not appear to correlate simply with magma H2O contents. Overall, our findings confirm that primitive and H2O-poor basalts can traverse the crust within days, and may erupt with little precursory warning of magma ascent. Article in Journal/Newspaper Iceland Ocean Island Apollo - University of Cambridge Repository Borgarhraun ENVELOPE(-17.022,-17.022,65.810,65.810)
institution	Open Polar
collection	Apollo - University of Cambridge Repository
op_collection_id	ftunivcam
language	English
topic	magma ascent rate plumbing system clinopyroxene dissolution basalt disequilibrium Iceland
spellingShingle	magma ascent rate plumbing system clinopyroxene dissolution basalt disequilibrium Iceland Neave, DA Maclennan, J Clinopyroxene Dissolution Records Rapid Magma Ascent
topic_facet	magma ascent rate plumbing system clinopyroxene dissolution basalt disequilibrium Iceland
description	Magma ascent rates control volcanic eruption styles. However, the rates at which basaltic magmas ascend through the crust remain highly uncertain. Although recent studies have successfully exploited records of decompression driven degassing to estimate the rates at which H2O-rich basalts ascend, such approaches cannot readily be applied to primitive and H2O-poor basalts that erupt in ocean island and mid-ocean ridge settings. Here we present magma ascent rates obtained by modelling the dissolution of clinopyroxene crystals in a wehrlitic nodule from the primitive Borgarhraun lava flow in North Iceland. High-Al2O3 clinopyroxene core compositions are consistent with crystallisation near the Moho (_800 MPa), whereas low-Al2O3 clinopyroxene rims and inclusion compositions are consistent with crystallisation at or near the surface. We interpret low-Al2O3 rims and inclusions as the crystallised remnants of boundary layers formed by the dissolution of high-Al2O3 clinopyroxene during magma ascent. By combining characteristic rim dissolution lengths of 50–100 m with published experimental calibrations of clinopyroxene dissolution behaviour, we estimate that the Borgarhraun magma most likely decompressed and ascended at rates of 3.0–15 kPa.s-1 and 0.11–0.53 m.s-1 respectively. These rates are slightly faster than published estimates obtained by modelling the diffusive re-equilibration of olivine crystals, suggesting that the Borgarhraun magma either accelerated upwards or that it stalled briefly at depth prior to final ascent. Comparisons with other basaltic eruptions indicate that the H2O-poor magma that fed the dominantly effusive Borgarhraun eruption ascended at a similar rate to some H2O-rich magmas that have fed explosive eruptions in arc settings. Thus, magma ascent rates do not appear to correlate simply with magma H2O contents. Overall, our findings confirm that primitive and H2O-poor basalts can traverse the crust within days, and may erupt with little precursory warning of magma ascent.
format	Article in Journal/Newspaper
author	Neave, DA Maclennan, J
author_facet	Neave, DA Maclennan, J
author_sort	Neave, DA
title	Clinopyroxene Dissolution Records Rapid Magma Ascent
title_short	Clinopyroxene Dissolution Records Rapid Magma Ascent
title_full	Clinopyroxene Dissolution Records Rapid Magma Ascent
title_fullStr	Clinopyroxene Dissolution Records Rapid Magma Ascent
title_full_unstemmed	Clinopyroxene Dissolution Records Rapid Magma Ascent
title_sort	clinopyroxene dissolution records rapid magma ascent
publisher	Frontiers Media SA
publishDate	2020
url	https://www.repository.cam.ac.uk/handle/1810/305366 https://doi.org/10.17863/CAM.52449
long_lat	ENVELOPE(-17.022,-17.022,65.810,65.810)
geographic	Borgarhraun
geographic_facet	Borgarhraun
genre	Iceland Ocean Island
genre_facet	Iceland Ocean Island
op_relation	https://www.repository.cam.ac.uk/handle/1810/305366 doi:10.17863/CAM.52449
op_rights	All rights reserved
op_doi	https://doi.org/10.17863/CAM.52449
_version_	1788062353337614336

Clinopyroxene Dissolution Records Rapid Magma Ascent

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