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A bedform phase diagram for dense granular currents

Author

Listed:
  • Gregory Smith

    (Geology and Environment, University of Hull)

  • Peter Rowley

    (Geology and Environment, University of Hull
    University of Portsmouth
    University of the West of England)

  • Rebecca Williams

    (Geology and Environment, University of Hull)

  • Guido Giordano

    (Università Roma Tre)

  • Matteo Trolese

    (Università Roma Tre)

  • Aurora Silleni

    (Università Roma Tre)

  • Daniel R. Parsons

    (University of Hull)

  • Samuel Capon

    (University of Portsmouth)

Abstract

Pyroclastic density currents (PDCs) are a life-threatening volcanic hazard. Our understanding and hazard assessments of these flows rely on interpretations of their deposits. The occurrence of stratified layers, cross-stratification, and bedforms in these deposits has been assumed as indicative of dilute, turbulent, supercritical flows causing traction-dominated deposition. Here we show, through analogue experiments, that a variety of bedforms can be produced by denser, aerated, granular currents, including backset bedforms that are formed in waning flows by an upstream-propagating granular bore. We are able to, for the first time, define phase fields for the formation of bedforms in PDC deposits. We examine how our findings impact the understanding of bedform features in outcrop, using the example of the Pozzolane Rosse ignimbrite of the Colli Albani volcano, Italy, and thus highlight that interpretations of the formative mechanisms of these features observed in the field must be reconsidered.

Suggested Citation

  • Gregory Smith & Peter Rowley & Rebecca Williams & Guido Giordano & Matteo Trolese & Aurora Silleni & Daniel R. Parsons & Samuel Capon, 2020. "A bedform phase diagram for dense granular currents," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16657-z
    DOI: 10.1038/s41467-020-16657-z
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    Cited by:

    1. Eric C. P. Breard & Josef Dufek & Sylvain Charbonnier & Valentin Gueugneau & Thomas Giachetti & Braden Walsh, 2023. "The fragmentation-induced fluidisation of pyroclastic density currents," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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