Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions

Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions

<p>Structural hydroxyl content of volcanic quartz phenocrysts was investigated with unpolarized Fourier-transform infrared spectroscopy. The phenocrysts originated from five pyroclastic fallout deposits from the Bükk Foreland Volcanic Area (BFVA), Hungary, and two from the AD 1314 Kaharoa erup...

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Main Authors: M. Hencz, T. Biró, I. J. Kovács, R. Stalder, K. Németh, A. Szakács, Z. Pálos, Z. Pécskay, D. Karátson
Format: Article
Language:English
Published: Copernicus Publications 2021-09-01
Series:European Journal of Mineralogy
Online Access:https://ejm.copernicus.org/articles/33/571/2021/ejm-33-571-2021.pdf
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spelling doaj-7898922146a14417843481eec90c28632021-09-24T11:59:22ZengCopernicus PublicationsEuropean Journal of Mineralogy0935-12211617-40112021-09-013357158910.5194/ejm-33-571-2021Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditionsM. Hencz0T. Biró1I. J. Kovács2R. Stalder3K. Németh4K. Németh5A. Szakács6Z. Pálos7Z. Pécskay8D. Karátson9ELTE Eötvös Loránd University, Institute of Geography and Earth Sciences, Department of Physical Geography, Pázmány Péter sétány 1/C, 1117, Budapest, HungaryELTE Eötvös Loránd University, Institute of Geography and Earth Sciences, Department of Physical Geography, Pázmány Péter sétány 1/C, 1117, Budapest, HungaryMTA EK Lendület Pannon LitHOscope Research Group, Konkoly-Thege Miklós út 29-33, 1121, Budapest, HungaryInstitute of Mineralogy and Petrography, University of Innsbruck, Innrain 52f, 6020, Innsbruck, AustriaSchool of Agriculture and Environment, Massey University, Private Bag 11, 222 Palmerston North, 4442, New ZealandInstitute of Earth Physics and Space Sciences, Csatkai E. u. 6-8, Sopron, 9400, HungaryDepartment of Endogene Processes, Natural Hazard and Risk, Romanian Academy, Institute of Geodynamics, 19-21 Jean-Louis Calderon St., 020032, Bucharest-37, RomaniaDepartment of Earth Sciences, Mineral Resources and Geofluids Group, University of Geneva, 13, Rue des Maraîchers, 1205 Geneva, SwitzerlandInstitute of Nuclear Research (ATOMKI), Isotope Climatology and Environmental Research Centre (ICER), K-Ar Group, Bem tér 18/c, 4026, Debrecen, HungaryELTE Eötvös Loránd University, Institute of Geography and Earth Sciences, Department of Physical Geography, Pázmány Péter sétány 1/C, 1117, Budapest, Hungary<p>Structural hydroxyl content of volcanic quartz phenocrysts was investigated with unpolarized Fourier-transform infrared spectroscopy. The phenocrysts originated from five pyroclastic fallout deposits from the Bükk Foreland Volcanic Area (BFVA), Hungary, and two from the AD 1314 Kaharoa eruption (KH eruption), Okataina Volcanic Complex (Taupo Volcanic Zone), New Zealand. All investigated quartz populations contain structural hydroxyl content in a narrow range with an average of 9.3 (<span class="inline-formula">±</span>1.7) wt ppm. The earlier correlated horizons in the BFVA had the same average structural hydroxyl content (within uncertainty). Thus, it can be concluded that the structural hydroxyl content does not depend on the geographical distance of outcrops of the same units or the temperature or type of the covering deposit. The rare outlier values and similar structural hydroxyl contents show that the fallout horizons cooled fast enough to retain their original structural hydroxyl content. The similarity of the structural hydroxyl contents may be the result of similar <span class="inline-formula"><i>P</i></span>, <span class="inline-formula"><i>T</i></span>, and <span class="inline-formula"><i>x</i></span> (most importantly H<span class="inline-formula"><sub>2</sub></span>O and the availability of other monovalent cations) conditions in the magmatic plumbing system just before eruption. Therefore, we envisage common physical–chemical conditions, which set the structural hydroxyl content in the quartz phenocrysts and, consequently, the water content of the host magma (<span class="inline-formula">∼</span> 5.5 wt %–7 wt % H<span class="inline-formula"><sub>2</sub></span>O) in a relatively narrow range close to water saturation.</p>https://ejm.copernicus.org/articles/33/571/2021/ejm-33-571-2021.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Hencz
T. Biró
I. J. Kovács
R. Stalder
K. Németh
K. Németh
A. Szakács
Z. Pálos
Z. Pécskay
D. Karátson
spellingShingle M. Hencz
T. Biró
I. J. Kovács
R. Stalder
K. Németh
K. Németh
A. Szakács
Z. Pálos
Z. Pécskay
D. Karátson
Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions
European Journal of Mineralogy
author_facet M. Hencz
T. Biró
I. J. Kovács
R. Stalder
K. Németh
K. Németh
A. Szakács
Z. Pálos
Z. Pécskay
D. Karátson
author_sort M. Hencz
title Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions
title_short Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions
title_full Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions
title_fullStr Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions
title_full_unstemmed Uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions
title_sort uniform “water” content in quartz phenocrysts from silicic pyroclastic fallout deposits – implications on pre-eruptive conditions
publisher Copernicus Publications
series European Journal of Mineralogy
issn 0935-1221
1617-4011
publishDate 2021-09-01
description <p>Structural hydroxyl content of volcanic quartz phenocrysts was investigated with unpolarized Fourier-transform infrared spectroscopy. The phenocrysts originated from five pyroclastic fallout deposits from the Bükk Foreland Volcanic Area (BFVA), Hungary, and two from the AD 1314 Kaharoa eruption (KH eruption), Okataina Volcanic Complex (Taupo Volcanic Zone), New Zealand. All investigated quartz populations contain structural hydroxyl content in a narrow range with an average of 9.3 (<span class="inline-formula">±</span>1.7) wt ppm. The earlier correlated horizons in the BFVA had the same average structural hydroxyl content (within uncertainty). Thus, it can be concluded that the structural hydroxyl content does not depend on the geographical distance of outcrops of the same units or the temperature or type of the covering deposit. The rare outlier values and similar structural hydroxyl contents show that the fallout horizons cooled fast enough to retain their original structural hydroxyl content. The similarity of the structural hydroxyl contents may be the result of similar <span class="inline-formula"><i>P</i></span>, <span class="inline-formula"><i>T</i></span>, and <span class="inline-formula"><i>x</i></span> (most importantly H<span class="inline-formula"><sub>2</sub></span>O and the availability of other monovalent cations) conditions in the magmatic plumbing system just before eruption. Therefore, we envisage common physical–chemical conditions, which set the structural hydroxyl content in the quartz phenocrysts and, consequently, the water content of the host magma (<span class="inline-formula">∼</span> 5.5 wt %–7 wt % H<span class="inline-formula"><sub>2</sub></span>O) in a relatively narrow range close to water saturation.</p>
url https://ejm.copernicus.org/articles/33/571/2021/ejm-33-571-2021.pdf
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