Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes
Understanding the role of various factors influencing eruption style is challenging, but it can aid in adapting different hazard mitigations and crisis responses for explosive or effusive events. Here, we focus on the role of magma storage conditions in controlling eruption styles at basaltic andesi...
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Science::Geology Experimental Petrology Kelud Utami, Sri Budhi Andùjar, Juan Costa, Fidel Scaillet, Bruno Humaida, Hanik Carn, Simon Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes |
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Understanding the role of various factors influencing eruption style is challenging, but it can aid in adapting different hazard mitigations and crisis responses for explosive or effusive events. Here, we focus on the role of magma storage conditions in controlling eruption styles at basaltic andesite volcanoes, and how they can be related to monitoring data. We study the cycle of explosive (1990, sub-Plinian) → effusive (2007, dome) → explosive (2014, sub-Plinian) eruptions from Kelud (Kelut) volcano, Indonesia. We conducted petrological analyses of the eruption products and phase equilibria experiments using pumice and explored a range of temperatures, pressures, oxygen fugacity, and volatile contents. We show that we can reproduce the main mineral assemblage (plagioclase ± pyroxenes ± magnetite ± amphibole ± olivine) and phenocryst content (30–50 wt%) of the magmas from the three eruptions at T = 975 ± 39°C, p = 175 ± 25 MPa, fO2 = nickel–nickel oxide buffer, and about 4–6 wt% water in the melt (ca. 3 to 5 wt% and ca. 4 to 7 wt% for the 1990 and 2014 eruptions, respectively). However, geothermobarometric results also indicate that some crystals of amphibole were sourced from higher pressures. We infer from a synthesis of our data and historical observations that the high phenocryst content of the 2007 dome (∼70 wt%) likely resulted from slow magma ascent toward the surface alongside progressive degassing and re-equilibration at a lower volatile content (∼1 wt% water in the melt). Mass balance calculations on the sulfur budget of the 1990, 2007, and 2014 magmas show that the explosive events contained an excess fluid phase at pre-eruptive conditions, and we propose that this led to their higher explosivity compared to the 2007 dome. The accumulation of excess fluids during decadal-long repose depends on how plugged the volcanic system is, or its ability to passively release magmatic fluids, prior to eruption. Such condition could be inferred from monitoring records, including changes in gravity of the plumbing system over time, and thus contribute to better anticipate eruptive style. |
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Asian School of the Environment |
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Asian School of the Environment Utami, Sri Budhi Andùjar, Juan Costa, Fidel Scaillet, Bruno Humaida, Hanik Carn, Simon |
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Article |
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Utami, Sri Budhi Andùjar, Juan Costa, Fidel Scaillet, Bruno Humaida, Hanik Carn, Simon |
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Utami, Sri Budhi |
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Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes |
| title_short |
Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes |
| title_full |
Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes |
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Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes |
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Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes |
| title_sort |
pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes |
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2023 |
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https://hdl.handle.net/10356/164757 |
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1759058770324881408 |
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sg-ntu-dr.10356-1647572023-02-18T23:31:32Z Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes Utami, Sri Budhi Andùjar, Juan Costa, Fidel Scaillet, Bruno Humaida, Hanik Carn, Simon Asian School of the Environment Earth Observatory of Singapore Science::Geology Experimental Petrology Kelud Understanding the role of various factors influencing eruption style is challenging, but it can aid in adapting different hazard mitigations and crisis responses for explosive or effusive events. Here, we focus on the role of magma storage conditions in controlling eruption styles at basaltic andesite volcanoes, and how they can be related to monitoring data. We study the cycle of explosive (1990, sub-Plinian) → effusive (2007, dome) → explosive (2014, sub-Plinian) eruptions from Kelud (Kelut) volcano, Indonesia. We conducted petrological analyses of the eruption products and phase equilibria experiments using pumice and explored a range of temperatures, pressures, oxygen fugacity, and volatile contents. We show that we can reproduce the main mineral assemblage (plagioclase ± pyroxenes ± magnetite ± amphibole ± olivine) and phenocryst content (30–50 wt%) of the magmas from the three eruptions at T = 975 ± 39°C, p = 175 ± 25 MPa, fO2 = nickel–nickel oxide buffer, and about 4–6 wt% water in the melt (ca. 3 to 5 wt% and ca. 4 to 7 wt% for the 1990 and 2014 eruptions, respectively). However, geothermobarometric results also indicate that some crystals of amphibole were sourced from higher pressures. We infer from a synthesis of our data and historical observations that the high phenocryst content of the 2007 dome (∼70 wt%) likely resulted from slow magma ascent toward the surface alongside progressive degassing and re-equilibration at a lower volatile content (∼1 wt% water in the melt). Mass balance calculations on the sulfur budget of the 1990, 2007, and 2014 magmas show that the explosive events contained an excess fluid phase at pre-eruptive conditions, and we propose that this led to their higher explosivity compared to the 2007 dome. The accumulation of excess fluids during decadal-long repose depends on how plugged the volcanic system is, or its ability to passively release magmatic fluids, prior to eruption. Such condition could be inferred from monitoring records, including changes in gravity of the plumbing system over time, and thus contribute to better anticipate eruptive style. Ministry of Education (MOE) National Research Foundation (NRF) Published version JA and BS acknowledge support from both LabEx VOLTAIRE (ANR-10-LABX-100-01) and EquipEx PLANEX (ANR-11-EQPX0036) projects. SU acknowledges funding from the Stephen Riady Geosciences Scholarship 2018–2019. FC acknowledges support by the Earth Observatory of Singapore via its funding from the National Research Foundation Singapore and the Singapore Ministry of Education under the Research Centres of Excellence initiative. FC was funded by NRFi Award (NRFNRFI2017-06). This work comprises EOS contribution number 455. SC acknowledges funding from the NASA Interdisciplinary Research in Earth Science program (80NSSC20K1773). 2023-02-13T07:34:20Z 2023-02-13T07:34:20Z 2022 Journal Article Utami, S. B., Andùjar, J., Costa, F., Scaillet, B., Humaida, H. & Carn, S. (2022). Pre-eruptive excess volatiles and their relationship to effusive and explosive eruption styles in semi-plugged volcanoes. Frontiers in Earth Science, 10, 882097-. https://dx.doi.org/10.3389/feart.2022.882097 2296-6463 https://hdl.handle.net/10356/164757 10.3389/feart.2022.882097 2-s2.0-85138792359 10 882097 en NRFNRFI2017-06 Frontiers in Earth Science © 2022 Utami, Andùjar, Costa, Scaillet, Humaida and Carn. This is an openaccess article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. application/pdf |