Oblique sand ridges in confined tidal channels due to Coriolis and frictional torques

Hepkema, Tjebbe; Swart, H.E. de; Nnafie, A.; Schramkowski, George P.; Schuttelaars, Henk M.

doi:10.1007/s10236-020-01413-0

Ocean Dynamics

2020

DOI: 10.1007/s10236-020-01413-0

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Oblique sand ridges in confined tidal channels due to Coriolis and frictional torques

Tjebbe Hepkema

H.E. de Swart

A. Nnafie

et al.

Abstract: The role of the Coriolis effect in the initial formation of bottom patterns in a tidal channel is studied by means of a linear stability analysis. The key finding is that the mechanism generating oblique tidal sand ridges on the continental shelf is also present in confined tidal channels. As a result, the Coriolis effect causes the fastest growing pattern to be a combination of tidal bars and oblique tidal sand ridges. Similar as on the continental shelf, the Coriolis-induced torques cause anticyclonic residu… Show more

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A review of the morphology, physical processes and deposits of modern straits

Dalrymple

2022

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This study reviews the morphology, hydrodynamics and sedimentology of 33 modern straits, including examples from diverse tectonic and climatic settings. Strait morphology ranges from short, simple straits to long, tortuous passages many 100s of kilometers long; depths range from 10 m to >1 km. The morphological building block of strait sedimentation is a constriction flanked by open basins; a single strait can contain one or several of these. Currents accelerate through the constrictions and decelerate in the basins, leading to a spatial alternation of high- and low-energy conditions. Currents in a strait can be classified as either ‘persistent’ (oceanic currents or density-driven circulation) or ‘intermittent’ (tidally or meteorologically generated currents). Constrictions tend to be bedload partings, with the development of transport paths that diverge outward. Deposition occurs where the flow decelerates, generating paired subaqueous ‘constriction-related deltas’ that can be of unequal size. Cross-bedding predominates in high-energy settings; muddy sediment waves and contourite drifts are present in some straits. In shallow straits that were exposed during the sea-level lowstand, strait deposits typically occur near or at the maximum flooding surface, and can overlie estuarine and fluvial deposits. The most energetic deposits need not occur at the time of maximum inundation.Supplementary material at https://doi.org/10.6084/m9.figshare.c.5746061

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A review of the morphology, physical processes and deposits of modern straits

Dalrymple

2022

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Oblique sand ridges in confined tidal channels due to Coriolis and frictional torques

Cited by 1 publication

References 13 publications

A review of the morphology, physical processes and deposits of modern straits

A review of the morphology, physical processes and deposits of modern straits

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