Direct Monitoring Reveals Initiation of Turbidity Currents From Extremely Dilute River Plumes

Sophie Hage; Matthieu J B Cartigny; Esther J Sumner; Michael A Clare; John E Hughes Clarke; Peter J Talling; D Gwyn Lintern; Stephen M Simmons; Ricardo Silva Jacinto; Age J Vellinga; Joshua R Allin; Maria Azpiroz-Zabala; Jenny A Gales; Jamie L Hizzett; James E Hunt; Alessandro Mozzato; Daniel R Parsons; Ed L Pope; Cooper D Stacey; William O Symons; Mark E Vardy; Camilla Watts

doi:10.1029/2019GL084526

Direct Monitoring Reveals Initiation of Turbidity Currents From Extremely Dilute River Plumes

Geophys Res Lett. 2019 Oct 28;46(20):11310-11320. doi: 10.1029/2019GL084526. Epub 2019 Oct 29.

Authors

Sophie Hage^{1

2}, Matthieu J B Cartigny³, Esther J Sumner², Michael A Clare¹, John E Hughes Clarke⁴, Peter J Talling³, D Gwyn Lintern⁵, Stephen M Simmons⁶, Ricardo Silva Jacinto⁷, Age J Vellinga², Joshua R Allin⁸, Maria Azpiroz-Zabala⁹, Jenny A Gales¹⁰, Jamie L Hizzett², James E Hunt¹, Alessandro Mozzato², Daniel R Parsons⁶, Ed L Pope³, Cooper D Stacey⁵, William O Symons¹¹, Mark E Vardy¹, Camilla Watts²

Affiliations

¹ National Oceanography Centre Southampton Southampton UK.
² School of Ocean and Earth Sciences University of Southampton Southampton UK.
³ Department of Geography Durham University Durham UK.
⁴ Center for Coastal and Ocean Mapping University of New Hampshire Durham NH USA.
⁵ Geological Survey of Canada Natural Resources Canada Sidney British Columbia Canada.
⁶ Energy and Environment Institute University of Hull Hull UK.
⁷ Marine Geosciences Unit IFREMER Centre de Brest Plouzané France.
⁸ Geotek Ltd Daventry UK.
⁹ Faculty of Civil Engineering and Geosciences Delft University of Technology Delft The Netherlands.
¹⁰ School of Biological and Marine Sciences University of Plymouth Plymouth UK.
¹¹ CGG Robertson North Wales UK.

Abstract

Rivers (on land) and turbidity currents (in the ocean) are the most important sediment transport processes on Earth. Yet how rivers generate turbidity currents as they enter the coastal ocean remains poorly understood. The current paradigm, based on laboratory experiments, is that turbidity currents are triggered when river plumes exceed a threshold sediment concentration of ~1 kg/m³. Here we present direct observations of an exceptionally dilute river plume, with sediment concentrations 1 order of magnitude below this threshold (0.07 kg/m³), which generated a fast (1.5 m/s), erosive, short-lived (6 min) turbidity current. However, no turbidity current occurred during subsequent river plumes. We infer that turbidity currents are generated when fine sediment, accumulating in a tidal turbidity maximum, is released during spring tide. This means that very dilute river plumes can generate turbidity currents more frequently and in a wider range of locations than previously thought.