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Unexpected large eruptions from buoyant magma bodies within viscoelastic crust

Author

Listed:
  • Freysteinn Sigmundsson

    (University of Iceland)

  • Virginie Pinel

    (Univ. Grenoble Alpes, Univ. Savoie Mont Blanc, CNRS, IRD, IFSTTAR, ISTerre)

  • Ronni Grapenthin

    (University of Alaska Fairbanks)

  • Andrew Hooper

    (University of Leeds)

  • Sæmundur A. Halldórsson

    (University of Iceland)

  • Páll Einarsson

    (University of Iceland)

  • Benedikt G. Ófeigsson

    (Icelandic Meteorological Office)

  • Elías R. Heimisson

    (California Institute of Technology)

  • Kristín Jónsdóttir

    (Icelandic Meteorological Office)

  • Magnús T. Gudmundsson

    (University of Iceland)

  • Kristín Vogfjörd

    (Icelandic Meteorological Office)

  • Michelle Parks

    (Icelandic Meteorological Office)

  • Siqi Li

    (University of Iceland)

  • Vincent Drouin

    (Iceland GeoSurvey)

  • Halldór Geirsson

    (University of Iceland)

  • Stéphanie Dumont

    (Instituto Dom Luiz - University of Beira Interior)

  • Hildur M. Fridriksdottir

    (Icelandic Meteorological Office)

  • Gunnar B. Gudmundsson

    (Icelandic Meteorological Office)

  • Tim J. Wright

    (University of Leeds)

  • Tadashi Yamasaki

    (Geological Survey of Japan, AIST)

Abstract

Large volume effusive eruptions with relatively minor observed precursory signals are at odds with widely used models to interpret volcano deformation. Here we propose a new modelling framework that resolves this discrepancy by accounting for magma buoyancy, viscoelastic crustal properties, and sustained magma channels. At low magma accumulation rates, the stability of deep magma bodies is governed by the magma-host rock density contrast and the magma body thickness. During eruptions, inelastic processes including magma mush erosion and thermal effects, can form a sustained channel that supports magma flow, driven by the pressure difference between the magma body and surface vents. At failure onset, it may be difficult to forecast the final eruption volume; pressure in a magma body may drop well below the lithostatic load, create under-pressure and initiate a caldera collapse, despite only modest precursors.

Suggested Citation

  • Freysteinn Sigmundsson & Virginie Pinel & Ronni Grapenthin & Andrew Hooper & Sæmundur A. Halldórsson & Páll Einarsson & Benedikt G. Ófeigsson & Elías R. Heimisson & Kristín Jónsdóttir & Magnús T. Gudm, 2020. "Unexpected large eruptions from buoyant magma bodies within viscoelastic crust," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16054-6
    DOI: 10.1038/s41467-020-16054-6
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    Cited by:

    1. A. Rosa & C. Pagli & H. Wang & F. Sigmundsson & V. Pinel & D. Keir, 2024. "Simultaneous rift-scale inflation of a deep crustal sill network in Afar, East Africa," Nature Communications, Nature, vol. 15(1), pages 1-8, December.

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