The sediment trapping efficiency of the macro-tidal Daly Estuary, tropical Australia

Wolanski, E., Williams, D., and Hanert, E. (2006) The sediment trapping efficiency of the macro-tidal Daly Estuary, tropical Australia. Estuarine, Coastal and Shelf Science , 69 (1-2). pp. 291-298.

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Abstract

Field studies were carried out on the water and sediment dynamics in the tropical, macro-tidal, Daly Estuary. The estuary is shallow, very-turbid, about 100 km long, and the entrance is funnel-shape. In the wet, high flow season, normal tidal ranges can be suppressed in the estuary, depending on inflow rates, and freshwater becomes dominant up to the mouth. At that time a fraction of the fine sediment load is exported offshore as a bottom-tagging nepheloid layer after the sediment falls out of suspension of the thin, near-surface, river plume. The remaining fraction and the riverine coarse sediment form a large sediment bar 10 km long, up to 6 m in height and extending across the whole width of the channel near the mouth. This bar, as well as shoals in the estuary, partially pond the mid- to upper-estuary. This bar builds up from the deposition of riverine sediment during a wet season with high runoff and can raise mean water level by up to 2 m in the upper estuary in the low flow season. This ponding effect takes about three successive dry years to disappear by the sediment forming the bar being redistributed all over the estuary by tidal pumping of fine and coarse sediment in the dry season, which is the low flow season. The swift reversal of the tidal currents from ebb to flood results in macro-turbulence that lasts about 20 min. Bed load transport is preferentially landward and occurs only for water currents greater than 0.6 m s−1. This high value of the threshold velocity suggests that the sand may be cemented by the mud. The Daly Estuary thus is a leaky sediment trap with an efficiency varying both seasonally and inter-annually.

Item ID: 4723
Item Type: Article (Refereed Research - C1)
Keywords: sediment budget; flocculation; suspended sediment; bed load; tidal symmetry; ponding
ISSN: 1096-0015
Date Deposited: 06 Jul 2009 23:36
Citation Count from Web of Science Web of Science 10
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