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Self-sharpening induces jet-like structure in seafloor gravity currents

Author

Listed:
  • R. M. Dorrell

    (University of Hull)

  • J. Peakall

    (University of Leeds)

  • S. E. Darby

    (University of Southampton)

  • D. R. Parsons

    (University of Hull)

  • J. Johnson

    (University of Hull)

  • E. J. Sumner

    (University of Southampton)

  • R. B. Wynn

    (National Oceanography Centre)

  • E. Özsoy

    (Middle East Technical University
    İstanbul Technical University)

  • D. Tezcan

    (Middle East Technical University)

Abstract

Gravity currents are the primary means by which sediments, solutes and heat are transported across the ocean-floor. Existing theory of gravity current flow employs a statistically-stable model of turbulent diffusion that has been extant since the 1960s. Here we present the first set of detailed spatial data from a gravity current over a rough seafloor that demonstrate that this existing paradigm is not universal. Specifically, in contrast to predictions from turbulent diffusion theory, self-sharpened velocity and concentration profiles and a stable barrier to mixing are observed. Our new observations are explained by statistically-unstable mixing and self-sharpening, by boundary-induced internal gravity waves; as predicted by recent advances in fluid dynamics. Self-sharpening helps explain phenomena such as ultra-long runout of gravity currents and restricted growth of bedforms, and highlights increased geohazard risk to marine infrastructure. These processes likely have broader application, for example to wave-turbulence interaction, and mixing processes in environmental flows.

Suggested Citation

  • R. M. Dorrell & J. Peakall & S. E. Darby & D. R. Parsons & J. Johnson & E. J. Sumner & R. B. Wynn & E. Özsoy & D. Tezcan, 2019. "Self-sharpening induces jet-like structure in seafloor gravity currents," Nature Communications, Nature, vol. 10(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09254-2
    DOI: 10.1038/s41467-019-09254-2
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