Ed L. Pope
First source-to-sink monitoring shows dense head controls sediment flux and runout in turbidity currents
Pope, Ed L.; Cartigny, Matthieu J.B.; Clare, Michael A.; Talling, Peter J.; Lintern, D. Gwyn; Vellinga, Age; Hage, Sophie; Açikalin, Sanem; Bailey, Lewis; Chapplow, Natasha; Chen, Ye; Eggenhuisen, Joris T.; Hendry, Alison; Heerema, Catharina J.; Heijnen, Maarten; Hubbard, Stephen M.; Hunt, James E.; McGhee, Claire; Parsons, Daniel R.; Simmons, Stephen M.; Stacey, Cooper D.; Vendettuoli, Daniela
Authors
Matthieu J.B. Cartigny
Michael A. Clare
Peter J. Talling
D. Gwyn Lintern
Age Vellinga
Sophie Hage
Sanem Açikalin
Lewis Bailey
Natasha Chapplow
Ye Chen
Joris T. Eggenhuisen
Alison Hendry
Catharina J. Heerema
Maarten Heijnen
Stephen M. Hubbard
James E. Hunt
Claire McGhee
Daniel R. Parsons
Dr Steve Simmons S.Simmons@hull.ac.uk
Lecturer in Energy and Environment
Cooper D. Stacey
Daniela Vendettuoli
Abstract
Until recently, despite being one of the most important sediment transport phenomena on Earth, few direct measurements of turbidity currents existed. Consequently, their structure and evolution were poorly understood, particularly whether they are dense or dilute. Here, we analyze the largest number of turbidity currents monitored to date from source to sink. We show sediment transport and internal flow characteristic evolution as they runout. Observed frontal regions (heads) are fast (>1.5 m/s), thin (<10 m), dense (depth averaged concentrations up to 38%vol), strongly stratified, and dominated by grain-to-grain interactions, or slower (<1 m/s), dilute (<0.01%vol), and well mixed with turbulence supporting sediment. Between these end-members, a transitional flow head exists. Flow bodies are typically thick, slow, dilute, and well mixed. Flows with dense heads stretch and bulk up with dense heads transporting up to 1000 times more sediment than the dilute body. Dense heads can therefore control turbidity current sediment transport and runout into the deep sea.
Citation
Pope, E. L., Cartigny, M. J., Clare, M. A., Talling, P. J., Lintern, D. G., Vellinga, A., Hage, S., Açikalin, S., Bailey, L., Chapplow, N., Chen, Y., Eggenhuisen, J. T., Hendry, A., Heerema, C. J., Heijnen, M., Hubbard, S. M., Hunt, J. E., McGhee, C., Parsons, D. R., Simmons, S. M., …Vendettuoli, D. (2022). First source-to-sink monitoring shows dense head controls sediment flux and runout in turbidity currents. Science Advances, 8(20), eabj3220. https://doi.org/10.1126/sciadv.abj3220
Journal Article Type | Article |
---|---|
Acceptance Date | Apr 4, 2022 |
Online Publication Date | May 18, 2022 |
Publication Date | May 20, 2022 |
Deposit Date | May 20, 2022 |
Publicly Available Date | May 23, 2022 |
Journal | Science advances |
Electronic ISSN | 2375-2548 |
Publisher | American Association for the Advancement of Science |
Peer Reviewed | Peer Reviewed |
Volume | 8 |
Issue | 20 |
Pages | eabj3220 |
DOI | https://doi.org/10.1126/sciadv.abj3220 |
Public URL | https://hull-repository.worktribe.com/output/3999717 |
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Copyright Statement
Copyright © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).
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