Abstract
Sandbars, submerged ridges of sand parallel to the shoreline, tend to develop crescentic patterns while migrating onshore. At straight coasts, these patterns form preferably under near‐normal waves through the generation of circulation cells in the flow field, whereas they decay under energetic oblique waves with associated intense alongshore currents. Recently, observations at a man‐made convex curved coast showed an alongshore variability in patterning that seems related to a spatiotemporal variability of the local wave angle (Sand Engine). Here, we aim to systematically explore how coastline curvature contributes to alongshore variability in crescentic pattern formation, by introducing local differences in wave angle and the resulting flow field. A nonlinear morphodynamic model was used to simulate the patterns in an initially alongshore uniform sandbar that migrates onshore along the imposed curved coast. The model was forced by a time‐invariant and time‐varying offshore wave angle. Simulations show that the presence of patterns and their growth rate relate to the local breaker angle, depending on the schematization of the offshore angle and the local coastline orientation. Growth rates decrease with increasing obliquity as both refraction‐induced reductions of the wave height as well as alongshore currents increase. Furthermore, simulations of variations in coastline curvature show that patterns may develop faster at strongly curved coasts if this curvature leads to an increase in near‐normal angles. This implies that beaches where the coastline orientation changes substantially, for example, due to km‐scale nourishments, become potentially more dangerous to swimmers due to strong currents that develop with pronounced bar patterns.
Highlights
Sandbars, submerged ridges of sand parallel to the shoreline, often possess a pronounced alongshore variability in cross-shore position and depth (Sonu, 1973; Lippmann& Holman, 1989; Van Enckevort et al, 2004) that is related to the imposed wave energy, grain size and profile characteristics (Wright & Short, 1984; Calvete et al, 2007)
On t = 19 days, several crescents have formed along the left flank and the straight coast, while rhythmic morphology lacks along the right flank
Under a time-invariant and a time-varying wave climate with limited obliquity, we found that curved coasts impact rip channel dynamics along their flanks as well as their adjacent straight coastlines because of the alongshore varying coastline orientation and the global refraction pattern
Summary
Sandbars, submerged ridges of sand parallel to the shoreline, often possess a pronounced alongshore variability in cross-shore position and depth (Sonu, 1973; Lippmann& Holman, 1989; Van Enckevort et al, 2004) that is related to the imposed wave energy, grain size and profile characteristics (Wright & Short, 1984; Calvete et al, 2007). Field observations show that crescentic patterns typically arise in a few days under low to moderately energetic conditions following a storm, and tend to disappear under high-energetic conditions (Wright & Short, 1984; Almar et al, 2010) or under oblique wave incidence (Price & Ruessink, 2011; Contardo & Symonds, 2015). In some cases they may, persist for months or longer (Van Enckevort & Ruessink, 2003).
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