From magma ascent to ash generation: Investigating volcanic conduit processes by integrating experiments, numerical modeling, and observations

Margherita Polacci; Mattia de’ Michieli Vitturi; Fabio Arzilli; Michael Richard Burton; Luca Caricchi; Brett Carr; Matteo Cerminara; Corrado Cimarelli; Amanda Clarke; Simone Colucci; Antonio Costa; Wim Degruyter; Tim Druitt; Samantha Engwell; Tomaso Esposti Ongaro; Daniele Giordano; Lucia Gurioli; Baptiste Haddadi; Jackie Evan Kendrick; Ulrich Kueppers; Anthony Lamur; Yan Lavallée; Edward Llewellin; Heidy Marita Mader; Nicole Metrich; Chiara Montagna; Augusto Neri; Eleonora Rivalta; Gilberto Saccorotti; Freysteinn Sigmundsson; Laura Spina; Jacopo Taddeucci

doi:10.4401/ag-7449

From magma ascent to ash generation: Investigating volcanic conduit processes by integrating experiments, numerical modeling, and observations

Margherita Polacci, Mattia de’ Michieli Vitturi, Fabio Arzilli, Michael Richard Burton, Luca Caricchi, Brett Carr, Matteo Cerminara, Corrado Cimarelli, Amanda Clarke, Simone Colucci, Antonio Costa, Wim Degruyter, Tim Druitt, Samantha Engwell, Tomaso Esposti Ongaro, Daniele Giordano, Lucia Gurioli, Baptiste Haddadi, Jackie Evan Kendrick, Ulrich KueppersAnthony Lamur, Yan Lavallée, Edward Llewellin, Heidy Marita Mader, Nicole Metrich, Chiara Montagna, Augusto Neri, Eleonora Rivalta, Gilberto Saccorotti, Freysteinn Sigmundsson, Laura Spina, Jacopo Taddeucci

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Processes occurring in volcanic conduits, the pathways through which magma travels from its storage region to the surface, have a fundamental control on the nature of eruptions and associated phenomena. It has been well established that magma flows, crystallizes, degasses, and fragments in conduits, that fluids migrate in and out of conduits, and that seismic and acoustic waves are generated and travel within conduits. A better understanding of volcanic conduits and related processes is of paramount importance for improving eruption forecasting, volcanic hazard assessment and risk mitigation. However, despite escalating advances in the characterization of individual conduit processes, our understanding of their mutual interactions and the consequent control on volcanic activity is still limited. With the purpose of addressing this topic, a multidisciplinary workshop led by a group of international scientists was hosted from 25 to 27 October 2014 by the Pisa branch of the Istituto Nazionale di Geofisica e Vulcanologia under the sponsorship of the MeMoVolc Research Networking Programme of the European Science Foundation. The workshop brought together the experimental, theoretical, and observational communities devoted to volcanological research. After 3 days of oral and poster presentations, breakout sessions, and plenary discussions, the participants identified three main outstanding issues common to experimental, analytical, numerical, and observational volcanology: un steadiness (or transience), disequilibrium, and uncertainty. A key outcome of the workshop was to identify the specific knowledge areas in which exchange of information among the sub-disciplines would lead to efficient progress in addressing these three main outstanding issues. It was clear that multidisciplinary collaboration of this sort is essential for progressing the state of the art in understanding of conduit magma dynamics and eruption behavior. This holistic approach has the ultimate aim to deliver fundamental improvements in understanding the underlying processes generating and controlling volcanic activity.

Original language	English (US)
Article number	S0666
Journal	Annals of Geophysics
Volume	60
Issue number	6
DOIs	https://doi.org/10.4401/ag-7449
State	Published - 2017

Keywords

Disequilibrium
Experimental
Magma ascent
Theoretical and observational volcanology
Uncertainty
Unsteadiness
Volcanic activity
Volcanic conduit

ASJC Scopus subject areas

Geophysics

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10.4401/ag-7449

Cite this

Polacci, M., de’ Michieli Vitturi, M., Arzilli, F., Burton, M. R., Caricchi, L., Carr, B., Cerminara, M., Cimarelli, C., Clarke, A., Colucci, S., Costa, A., Degruyter, W., Druitt, T., Engwell, S., Ongaro, T. E., Giordano, D., Gurioli, L., Haddadi, B., Kendrick, J. E., ... Taddeucci, J. (2017). From magma ascent to ash generation: Investigating volcanic conduit processes by integrating experiments, numerical modeling, and observations. Annals of Geophysics, 60(6), Article S0666. https://doi.org/10.4401/ag-7449

Polacci, M, de’ Michieli Vitturi, M, Arzilli, F, Burton, MR, Caricchi, L, Carr, B, Cerminara, M, Cimarelli, C, Clarke, A, Colucci, S, Costa, A, Degruyter, W, Druitt, T, Engwell, S, Ongaro, TE, Giordano, D, Gurioli, L, Haddadi, B, Kendrick, JE, Kueppers, U, Lamur, A, Lavallée, Y, Llewellin, E, Mader, HM, Metrich, N, Montagna, C, Neri, A, Rivalta, E, Saccorotti, G, Sigmundsson, F, Spina, L & Taddeucci, J 2017, 'From magma ascent to ash generation: Investigating volcanic conduit processes by integrating experiments, numerical modeling, and observations', Annals of Geophysics, vol. 60, no. 6, S0666. https://doi.org/10.4401/ag-7449

@article{1cd5f511f96b44c3a5174a0860611df9,

title = "From magma ascent to ash generation: Investigating volcanic conduit processes by integrating experiments, numerical modeling, and observations",

abstract = "Processes occurring in volcanic conduits, the pathways through which magma travels from its storage region to the surface, have a fundamental control on the nature of eruptions and associated phenomena. It has been well established that magma flows, crystallizes, degasses, and fragments in conduits, that fluids migrate in and out of conduits, and that seismic and acoustic waves are generated and travel within conduits. A better understanding of volcanic conduits and related processes is of paramount importance for improving eruption forecasting, volcanic hazard assessment and risk mitigation. However, despite escalating advances in the characterization of individual conduit processes, our understanding of their mutual interactions and the consequent control on volcanic activity is still limited. With the purpose of addressing this topic, a multidisciplinary workshop led by a group of international scientists was hosted from 25 to 27 October 2014 by the Pisa branch of the Istituto Nazionale di Geofisica e Vulcanologia under the sponsorship of the MeMoVolc Research Networking Programme of the European Science Foundation. The workshop brought together the experimental, theoretical, and observational communities devoted to volcanological research. After 3 days of oral and poster presentations, breakout sessions, and plenary discussions, the participants identified three main outstanding issues common to experimental, analytical, numerical, and observational volcanology: un steadiness (or transience), disequilibrium, and uncertainty. A key outcome of the workshop was to identify the specific knowledge areas in which exchange of information among the sub-disciplines would lead to efficient progress in addressing these three main outstanding issues. It was clear that multidisciplinary collaboration of this sort is essential for progressing the state of the art in understanding of conduit magma dynamics and eruption behavior. This holistic approach has the ultimate aim to deliver fundamental improvements in understanding the underlying processes generating and controlling volcanic activity.",

keywords = "Disequilibrium, Experimental, Magma ascent, Theoretical and observational volcanology, Uncertainty, Unsteadiness, Volcanic activity, Volcanic conduit",

author = "Margherita Polacci and {de{\textquoteright} Michieli Vitturi}, Mattia and Fabio Arzilli and Burton, {Michael Richard} and Luca Caricchi and Brett Carr and Matteo Cerminara and Corrado Cimarelli and Amanda Clarke and Simone Colucci and Antonio Costa and Wim Degruyter and Tim Druitt and Samantha Engwell and Ongaro, {Tomaso Esposti} and Daniele Giordano and Lucia Gurioli and Baptiste Haddadi and Kendrick, {Jackie Evan} and Ulrich Kueppers and Anthony Lamur and Yan Lavall{\'e}e and Edward Llewellin and Mader, {Heidy Marita} and Nicole Metrich and Chiara Montagna and Augusto Neri and Eleonora Rivalta and Gilberto Saccorotti and Freysteinn Sigmundsson and Laura Spina and Jacopo Taddeucci",

note = "Funding Information: Acknowledgements. We would like to acknowledge the MeMoVolc Research Networking Programme of the European Science Foundation for funding the workshop. We are also deeply grateful to the University of Pisa and the INGV Pisa office for hosting the workshop and handling the logistics associated with it. A special thank goes to Renata Rapuzzi and Patrizia Pantani for their precious help with all aspects of the workshop organization. Publisher Copyright: {\textcopyright} 2017 by the Istituto Nazionale di Geofisica e Vulcanologia. All rights reserved.",

year = "2017",

doi = "10.4401/ag-7449",

language = "English (US)",

volume = "60",

journal = "Annals of Geophysics",

issn = "1593-5213",

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T2 - Investigating volcanic conduit processes by integrating experiments, numerical modeling, and observations

AU - Polacci, Margherita

AU - de’ Michieli Vitturi, Mattia

AU - Arzilli, Fabio

AU - Burton, Michael Richard

AU - Caricchi, Luca

AU - Carr, Brett

AU - Cerminara, Matteo

AU - Cimarelli, Corrado

AU - Clarke, Amanda

AU - Colucci, Simone

AU - Costa, Antonio

AU - Degruyter, Wim

AU - Druitt, Tim

AU - Engwell, Samantha

AU - Ongaro, Tomaso Esposti

AU - Giordano, Daniele

AU - Gurioli, Lucia

AU - Haddadi, Baptiste

AU - Kendrick, Jackie Evan

AU - Kueppers, Ulrich

AU - Lamur, Anthony

AU - Lavallée, Yan

AU - Llewellin, Edward

AU - Mader, Heidy Marita

AU - Metrich, Nicole

AU - Montagna, Chiara

AU - Neri, Augusto

AU - Rivalta, Eleonora

AU - Saccorotti, Gilberto

AU - Sigmundsson, Freysteinn

AU - Spina, Laura

AU - Taddeucci, Jacopo

N1 - Funding Information: Acknowledgements. We would like to acknowledge the MeMoVolc Research Networking Programme of the European Science Foundation for funding the workshop. We are also deeply grateful to the University of Pisa and the INGV Pisa office for hosting the workshop and handling the logistics associated with it. A special thank goes to Renata Rapuzzi and Patrizia Pantani for their precious help with all aspects of the workshop organization. Publisher Copyright: © 2017 by the Istituto Nazionale di Geofisica e Vulcanologia. All rights reserved.

PY - 2017

Y1 - 2017

N2 - Processes occurring in volcanic conduits, the pathways through which magma travels from its storage region to the surface, have a fundamental control on the nature of eruptions and associated phenomena. It has been well established that magma flows, crystallizes, degasses, and fragments in conduits, that fluids migrate in and out of conduits, and that seismic and acoustic waves are generated and travel within conduits. A better understanding of volcanic conduits and related processes is of paramount importance for improving eruption forecasting, volcanic hazard assessment and risk mitigation. However, despite escalating advances in the characterization of individual conduit processes, our understanding of their mutual interactions and the consequent control on volcanic activity is still limited. With the purpose of addressing this topic, a multidisciplinary workshop led by a group of international scientists was hosted from 25 to 27 October 2014 by the Pisa branch of the Istituto Nazionale di Geofisica e Vulcanologia under the sponsorship of the MeMoVolc Research Networking Programme of the European Science Foundation. The workshop brought together the experimental, theoretical, and observational communities devoted to volcanological research. After 3 days of oral and poster presentations, breakout sessions, and plenary discussions, the participants identified three main outstanding issues common to experimental, analytical, numerical, and observational volcanology: un steadiness (or transience), disequilibrium, and uncertainty. A key outcome of the workshop was to identify the specific knowledge areas in which exchange of information among the sub-disciplines would lead to efficient progress in addressing these three main outstanding issues. It was clear that multidisciplinary collaboration of this sort is essential for progressing the state of the art in understanding of conduit magma dynamics and eruption behavior. This holistic approach has the ultimate aim to deliver fundamental improvements in understanding the underlying processes generating and controlling volcanic activity.

AB - Processes occurring in volcanic conduits, the pathways through which magma travels from its storage region to the surface, have a fundamental control on the nature of eruptions and associated phenomena. It has been well established that magma flows, crystallizes, degasses, and fragments in conduits, that fluids migrate in and out of conduits, and that seismic and acoustic waves are generated and travel within conduits. A better understanding of volcanic conduits and related processes is of paramount importance for improving eruption forecasting, volcanic hazard assessment and risk mitigation. However, despite escalating advances in the characterization of individual conduit processes, our understanding of their mutual interactions and the consequent control on volcanic activity is still limited. With the purpose of addressing this topic, a multidisciplinary workshop led by a group of international scientists was hosted from 25 to 27 October 2014 by the Pisa branch of the Istituto Nazionale di Geofisica e Vulcanologia under the sponsorship of the MeMoVolc Research Networking Programme of the European Science Foundation. The workshop brought together the experimental, theoretical, and observational communities devoted to volcanological research. After 3 days of oral and poster presentations, breakout sessions, and plenary discussions, the participants identified three main outstanding issues common to experimental, analytical, numerical, and observational volcanology: un steadiness (or transience), disequilibrium, and uncertainty. A key outcome of the workshop was to identify the specific knowledge areas in which exchange of information among the sub-disciplines would lead to efficient progress in addressing these three main outstanding issues. It was clear that multidisciplinary collaboration of this sort is essential for progressing the state of the art in understanding of conduit magma dynamics and eruption behavior. This holistic approach has the ultimate aim to deliver fundamental improvements in understanding the underlying processes generating and controlling volcanic activity.

KW - Disequilibrium

KW - Experimental

KW - Magma ascent

KW - Theoretical and observational volcanology

KW - Uncertainty

KW - Unsteadiness

KW - Volcanic activity

KW - Volcanic conduit

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From magma ascent to ash generation: Investigating volcanic conduit processes by integrating experiments, numerical modeling, and observations

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