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Magma fragmentation: a perspective on emerging topics and future directions

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Magma fragmentation: a perspective on emerging topics and future directions. / Jones, T.J.; Cashman, K.V.; Liu, E.J. et al.
In: Bulletin of Volcanology, Vol. 84, 45, 05.04.2022.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Jones, TJ, Cashman, KV, Liu, EJ, Rust, AC & Scheu, B 2022, 'Magma fragmentation: a perspective on emerging topics and future directions', Bulletin of Volcanology, vol. 84, 45. https://doi.org/10.1007/s00445-022-01555-7

APA

Jones, T. J., Cashman, K. V., Liu, E. J., Rust, A. C., & Scheu, B. (2022). Magma fragmentation: a perspective on emerging topics and future directions. Bulletin of Volcanology, 84, Article 45. https://doi.org/10.1007/s00445-022-01555-7

Vancouver

Jones TJ, Cashman KV, Liu EJ, Rust AC, Scheu B. Magma fragmentation: a perspective on emerging topics and future directions. Bulletin of Volcanology. 2022 Apr 5;84:45. doi: 10.1007/s00445-022-01555-7

Author

Jones, T.J. ; Cashman, K.V. ; Liu, E.J. et al. / Magma fragmentation : a perspective on emerging topics and future directions. In: Bulletin of Volcanology. 2022 ; Vol. 84.

Bibtex

@article{c63a152100ec4357a8b110816e32ed7d,
title = "Magma fragmentation: a perspective on emerging topics and future directions",
abstract = "The breaking apart of magma into fragments is intimately related to the eruptive style and thus the nature and footprint of volcanic hazards. The size and shape distributions of the fragments, in turn, affect the efficiency of heat transfer within pyroclastic plumes and currents and the settling velocity, and so the residence time, of particles in the atmosphere. Fundamental work relating the glass transition to the fragmentation of magmas remains at the heart of conceptual and numerical models of volcanic eruptions. Current fragmentation criteria, however, do not predict the sizes and shapes of the resulting fragments, or fully account for the multiphase nature of magmas or ways in which magma can break in a fluidal manner or by thermal stress. The pulsatory, non-steady state nature of some eruptions, and related interactions with these fragmentation criteria, also requires further investigation. Here, we briefly review some recent advances in the field of magma fragmentation and provide a perspective on how integrated field, experimental and numerical modelling studies can address key outstanding challenges.",
author = "T.J. Jones and K.V. Cashman and E.J. Liu and A.C. Rust and B. Scheu",
year = "2022",
month = apr,
day = "5",
doi = "10.1007/s00445-022-01555-7",
language = "English",
volume = "84",
journal = "Bulletin of Volcanology",
issn = "0258-8900",
publisher = "Springer-Verlag",

}

RIS

TY - JOUR

T1 - Magma fragmentation

T2 - a perspective on emerging topics and future directions

AU - Jones, T.J.

AU - Cashman, K.V.

AU - Liu, E.J.

AU - Rust, A.C.

AU - Scheu, B.

PY - 2022/4/5

Y1 - 2022/4/5

N2 - The breaking apart of magma into fragments is intimately related to the eruptive style and thus the nature and footprint of volcanic hazards. The size and shape distributions of the fragments, in turn, affect the efficiency of heat transfer within pyroclastic plumes and currents and the settling velocity, and so the residence time, of particles in the atmosphere. Fundamental work relating the glass transition to the fragmentation of magmas remains at the heart of conceptual and numerical models of volcanic eruptions. Current fragmentation criteria, however, do not predict the sizes and shapes of the resulting fragments, or fully account for the multiphase nature of magmas or ways in which magma can break in a fluidal manner or by thermal stress. The pulsatory, non-steady state nature of some eruptions, and related interactions with these fragmentation criteria, also requires further investigation. Here, we briefly review some recent advances in the field of magma fragmentation and provide a perspective on how integrated field, experimental and numerical modelling studies can address key outstanding challenges.

AB - The breaking apart of magma into fragments is intimately related to the eruptive style and thus the nature and footprint of volcanic hazards. The size and shape distributions of the fragments, in turn, affect the efficiency of heat transfer within pyroclastic plumes and currents and the settling velocity, and so the residence time, of particles in the atmosphere. Fundamental work relating the glass transition to the fragmentation of magmas remains at the heart of conceptual and numerical models of volcanic eruptions. Current fragmentation criteria, however, do not predict the sizes and shapes of the resulting fragments, or fully account for the multiphase nature of magmas or ways in which magma can break in a fluidal manner or by thermal stress. The pulsatory, non-steady state nature of some eruptions, and related interactions with these fragmentation criteria, also requires further investigation. Here, we briefly review some recent advances in the field of magma fragmentation and provide a perspective on how integrated field, experimental and numerical modelling studies can address key outstanding challenges.

U2 - 10.1007/s00445-022-01555-7

DO - 10.1007/s00445-022-01555-7

M3 - Journal article

VL - 84

JO - Bulletin of Volcanology

JF - Bulletin of Volcanology

SN - 0258-8900

M1 - 45

ER -