Seaweed-assisted, benthic gravel transport by tidal currents


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Authors: Frey, SE; Dashtgard, SE
Year: 2012
Journal: Sediment. Geol. 265: 121-125   Article Link (DOI)
Title: Seaweed-assisted, benthic gravel transport by tidal currents
Abstract: Traction transport of pebbles and cobbles occurs subtidally at current velocities below 0.5 m s(-1) when seaweed attached to clasts provides additional lift and drag to the clast In the Juan de Fuca Strait, British Columbia, Canada, the seaweed Cymanthere triplicata commonly attaches to pebbles and provides sufficient additional surface area for tidal currents to drag the clast along the seafloor. Using in situ measurements of current velocities at 13 m water depth, the threshold for initiation of motion of a 30 mm pebble with attached seaweed is 0.3 m s(-1). This is approximately one order of magnitude less than the activation velocity for a 30 mm pebble without attached seaweed. In addition to kelp-rafted (floated) gravel, seaweed-assisted, benthic gravel transport is possible in marine settings where unidirectional currents (e.g., tidal currents, storm-induced bottom currents) are sufficient to transport pebbles alongshore, and into and across the offshore (below fairweather wave base). If preserved in the rock record, deposits of algal-enhanced gravel deposited via unidirectional, subtidal currents will likely appear as isolated gravel clasts encased in sandstone, reflecting the similar current velocities required to transport these two clast groups. Crown Copyright (c) 2012 Published by Elsevier B.V. All rights reserved.
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