Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse

A series of large caldera-forming eruptions (361–38 ka) transformed Gorely volcano, southern Kamchatka Peninsula, from a shield-type system dominated by fractional crystallization processes to a composite volcanic center, exhibiting geochemical evidence of magma mixing. Old Gorely, an early shield v...

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Published in:	Bulletin of Volcanology
Main Authors:	Gavrilenko Maxim, Ozerov Alexey, Kyle Philip R., Carr Michael J., Nikulin Alex, Vidito Christopher, Danyushevsky Leonid
Format:	Text
Language:	English
Published:	2016
Subjects:	38.37.25 Вулканология Горелый Kamchatka Peninsula Kamchatka
Online Access:	http://repo.kscnet.ru/3545/ http://repo.kscnet.ru/3545/1/Gavrilenko_et_al-2016_BV.pdf https://doi.org/10.1007/s00445-016-1038-z

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record_format	openpolar
spelling	ftinstvs:oai:repo.kscnet.ru:3545 2023-05-15T16:59:06+02:00 Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse Gavrilenko Maxim Ozerov Alexey Kyle Philip R. Carr Michael J. Nikulin Alex Vidito Christopher Danyushevsky Leonid 2016 text http://repo.kscnet.ru/3545/ http://repo.kscnet.ru/3545/1/Gavrilenko_et_al-2016_BV.pdf https://doi.org/10.1007/s00445-016-1038-z en eng http://repo.kscnet.ru/3545/1/Gavrilenko_et_al-2016_BV.pdf Gavrilenko Maxim <http://repo.kscnet.ru/view/creators/Gavrilenko=3AMaxim=3A=3A.html>, Ozerov Alexey <http://repo.kscnet.ru/view/creators/Ozerov=3AAlexey=3A=3A.html>, Kyle Philip R. <http://repo.kscnet.ru/view/creators/Kyle=3APhilip_R=2E=3A=3A.html>, Carr Michael J. <http://repo.kscnet.ru/view/creators/Carr=3AMichael_J=2E=3A=3A.html>, Nikulin Alex <http://repo.kscnet.ru/view/creators/Nikulin=3AAlex=3A=3A.html>, Vidito Christopher <http://repo.kscnet.ru/view/creators/Vidito=3AChristopher=3A=3A.html>, Danyushevsky Leonid <http://repo.kscnet.ru/view/creators/Danyushevsky=3ALeonid=3A=3A.html> (2016) Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse // Bulletin of Volcanology. Vol. 78, No. 7. doi:10.1007/s00445-016-1038-z <http://doi.org/10.1007/s00445-016-1038-z>. 38.37.25 Вулканология Горелый Статья PeerReviewed 2016 ftinstvs https://doi.org/10.1007/s00445-016-1038-z 2022-08-09T17:06:26Z A series of large caldera-forming eruptions (361–38 ka) transformed Gorely volcano, southern Kamchatka Peninsula, from a shield-type system dominated by fractional crystallization processes to a composite volcanic center, exhibiting geochemical evidence of magma mixing. Old Gorely, an early shield volcano (700–361 ka), was followed by Young Gorely eruptions. Calc-alkaline high magnesium basalt to rhyolite lavas have been erupted from Gorely volcano since the Pleistocene. Fractional crystallization dominated evolution of the Old Gorely magmas, whereas magma mixing is more prominent in the Young Gorely eruptive products. The role of rechargeevacuation processes in Gorely magma evolution is negligible (a closed magmatic system); however, crustal rock assimilation plays a significant role for the evolved magmas. Most Gorely magmas differentiate in a shallow magmatic system at pressures up to 300 MPa, ∼3 wt% H2O, and oxygen fugacity of ∼QFM + 1.5 log units. Magma temperatures of 1123–1218 °C were measured using aluminum distribution between olivine and spinel in Old and Young Gorely basalts. The crystallization sequence of major minerals for Old Gorely was as follows: olivine and spinel (Ol + Sp) for mafic compositions (more than 5 wt% of MgO); clinopyroxene and plagioclase crystallized at ∼5 wt% of MgO (Ol +Cpx + Plag) and magnetite at ∼3.5 wt% of MgO (Ol + Cpx + Plag +Mt). We show that the shallow magma chamber evolution of Old Gorely occurs under conditions of decompression and degassing. We find that the caldera-forming eruption(s) modified the magma plumbing geometry. This led to a change in the dominant magma evolution process from fractional crystallization to magma mixing. We further suggest that disruption of the magma chamber and accompanying change in differentiation process have the potential to transform a shield volcanic system to that of composite cone on a global scale. Text Kamchatka Kamchatka Peninsula Institute of Volcanology and Seismology, Petropavlovsk-Kamchatsky: IVS FEB RAS Repository Kamchatka Peninsula ENVELOPE(160.000,160.000,56.000,56.000) Bulletin of Volcanology 78 7
institution	Open Polar
collection	Institute of Volcanology and Seismology, Petropavlovsk-Kamchatsky: IVS FEB RAS Repository
op_collection_id	ftinstvs
language	English
topic	38.37.25 Вулканология Горелый
spellingShingle	38.37.25 Вулканология Горелый Gavrilenko Maxim Ozerov Alexey Kyle Philip R. Carr Michael J. Nikulin Alex Vidito Christopher Danyushevsky Leonid Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse
topic_facet	38.37.25 Вулканология Горелый
description	A series of large caldera-forming eruptions (361–38 ka) transformed Gorely volcano, southern Kamchatka Peninsula, from a shield-type system dominated by fractional crystallization processes to a composite volcanic center, exhibiting geochemical evidence of magma mixing. Old Gorely, an early shield volcano (700–361 ka), was followed by Young Gorely eruptions. Calc-alkaline high magnesium basalt to rhyolite lavas have been erupted from Gorely volcano since the Pleistocene. Fractional crystallization dominated evolution of the Old Gorely magmas, whereas magma mixing is more prominent in the Young Gorely eruptive products. The role of rechargeevacuation processes in Gorely magma evolution is negligible (a closed magmatic system); however, crustal rock assimilation plays a significant role for the evolved magmas. Most Gorely magmas differentiate in a shallow magmatic system at pressures up to 300 MPa, ∼3 wt% H2O, and oxygen fugacity of ∼QFM + 1.5 log units. Magma temperatures of 1123–1218 °C were measured using aluminum distribution between olivine and spinel in Old and Young Gorely basalts. The crystallization sequence of major minerals for Old Gorely was as follows: olivine and spinel (Ol + Sp) for mafic compositions (more than 5 wt% of MgO); clinopyroxene and plagioclase crystallized at ∼5 wt% of MgO (Ol +Cpx + Plag) and magnetite at ∼3.5 wt% of MgO (Ol + Cpx + Plag +Mt). We show that the shallow magma chamber evolution of Old Gorely occurs under conditions of decompression and degassing. We find that the caldera-forming eruption(s) modified the magma plumbing geometry. This led to a change in the dominant magma evolution process from fractional crystallization to magma mixing. We further suggest that disruption of the magma chamber and accompanying change in differentiation process have the potential to transform a shield volcanic system to that of composite cone on a global scale.
format	Text
author	Gavrilenko Maxim Ozerov Alexey Kyle Philip R. Carr Michael J. Nikulin Alex Vidito Christopher Danyushevsky Leonid
author_facet	Gavrilenko Maxim Ozerov Alexey Kyle Philip R. Carr Michael J. Nikulin Alex Vidito Christopher Danyushevsky Leonid
author_sort	Gavrilenko Maxim
title	Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse
title_short	Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse
title_full	Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse
title_fullStr	Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse
title_full_unstemmed	Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse
title_sort	abrupt transition from fractional crystallization to magma mixing at gorely volcano (kamchatka) after caldera collapse
publishDate	2016
url	http://repo.kscnet.ru/3545/ http://repo.kscnet.ru/3545/1/Gavrilenko_et_al-2016_BV.pdf https://doi.org/10.1007/s00445-016-1038-z
long_lat	ENVELOPE(160.000,160.000,56.000,56.000)
geographic	Kamchatka Peninsula
geographic_facet	Kamchatka Peninsula
genre	Kamchatka Kamchatka Peninsula
genre_facet	Kamchatka Kamchatka Peninsula
op_relation	http://repo.kscnet.ru/3545/1/Gavrilenko_et_al-2016_BV.pdf Gavrilenko Maxim <http://repo.kscnet.ru/view/creators/Gavrilenko=3AMaxim=3A=3A.html>, Ozerov Alexey <http://repo.kscnet.ru/view/creators/Ozerov=3AAlexey=3A=3A.html>, Kyle Philip R. <http://repo.kscnet.ru/view/creators/Kyle=3APhilip_R=2E=3A=3A.html>, Carr Michael J. <http://repo.kscnet.ru/view/creators/Carr=3AMichael_J=2E=3A=3A.html>, Nikulin Alex <http://repo.kscnet.ru/view/creators/Nikulin=3AAlex=3A=3A.html>, Vidito Christopher <http://repo.kscnet.ru/view/creators/Vidito=3AChristopher=3A=3A.html>, Danyushevsky Leonid <http://repo.kscnet.ru/view/creators/Danyushevsky=3ALeonid=3A=3A.html> (2016) Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse // Bulletin of Volcanology. Vol. 78, No. 7. doi:10.1007/s00445-016-1038-z <http://doi.org/10.1007/s00445-016-1038-z>.
op_doi	https://doi.org/10.1007/s00445-016-1038-z
container_title	Bulletin of Volcanology
container_volume	78
container_issue	7
_version_	1766051286740893696

Abrupt transition from fractional crystallization to magma mixing at Gorely volcano (Kamchatka) after caldera collapse

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