- Title
- Sediment transport and mixing depth on a coral reef sand apron
- Creator
- Vila-Concejo, Ana; Harris, Daniel L.; Power, Hannah E.; Shannon, Amelia M.; Webster, Jody M.
- Relation
- Geomorphology Vol. 222, p. 143-150
- Publisher Link
- http://dx.doi.org/10.1016/j.geomorph.2013.09.034
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2014
- Description
- This paper investigates the mechanics of sediment transport on a subtidal sand apron located on a coral reef environment. In this environment 100% of the sediment is carbonate bioclasts generated in situ. The sand apron is located on the back reef and only affected by waves during high tides. It is commonly accepted in the literature that sand aprons are features that prograde lagoonwards and that most of the progradation occurs during high-energy events. Measurements of water depths, waves, currents and near bed suspended sediment concentrations (all at 10. Hz) on the sand apron were undertaken over a nine day intensive field campaign over both spring and neap tides; waves and tides were also measured in the lagoon. The topography and bathymetry of the sand apron were measured and mixing depth was obtained on three transects using depth of disturbance rods. We found that sediment transport on sand aprons is not solely restricted to high-energy events but occurs on a daily basis during spring tides. The main factor controlling the sediment transport was the water depth above the bed, with depths of 2-2.3. m allowing waves to promote the most sediment transport. This corresponds to a depth over the reef crest of 1.6-1.9. m. The second most important control was waves; transport was observed when Hs on the apron was 0.1. m or greater. In contrast, current magnitude was not a controlling mechanism for sediment entrainment but did affect sediment transport. The morphology of the sand apron was shown to affect the direction of currents with the currents also expected to influence the morphology of the sand apron. The currents measured during this field campaign were aligned with a shallow channel in the sand apron. Mixing depths were small (< 2.5. cm) yet they were larger than the values predicted by empirical formulae for gentle siliciclastic ocean beaches.
- Subject
- carbonate sand; depth of disturbance; coral reef morphodynamics; coral sand; sand sheet
- Identifier
- http://hdl.handle.net/1959.13/1066926
- Identifier
- uon:18293
- Identifier
- ISSN:0169-555X
- Language
- eng
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