Artículos de revistas
Large-scale bedforms induced by supercritical flows and wave–wave interference in the intertidal zone (Cap Ferret, France)
Fecha
2017-11Registro en:
Romain, Vaucher; Pittet, Bernard; Humbert, Thomas; Ferry, Serge; Large-scale bedforms induced by supercritical flows and wave–wave interference in the intertidal zone (Cap Ferret, France); Springer; Geo-marine Letters; 11-2017; 1-19
0276-0460
1432-1157
CONICET Digital
CONICET
Autor
Romain, Vaucher
Pittet, Bernard
Humbert, Thomas
Ferry, Serge
Resumen
The Cap Ferret sand spit is situated along the wave-dominated, tidally modulated Atlantic coast of western France, characterized by a semidiurnal macrotidal range. It displays peculiar dome-like bedforms that can be observed at low tide across the intertidal zone. These bedforms exhibit a wavelength of ca. 1.2 m and an elevation of ca. 30 cm. They occur only when the incident wave heights reach 1.5 a 2 m. The internal stratifications are characterized by swaley-like, sub-planar, oblique-tangential, oblique-tabular, as well as hummocky-like stratifications. The tabular and tangential stratifications comprise prograding oblique sets (defined as foresets and backsets) that almost always show variations in their steepness. Downcutting into the bottomsets of the oblique-tangential stratifications is common. The sets of laminae observed in the bedforms share common characteristics with those formed by supercritical flows in flume experiments of earlier studies. These peculiar bedforms are observed at the surf-swash transition zone where the backwash flow reaches supercritical conditions. This type of flow can explain their internal architecture but not their general dome-like (three-dimensional) morphology. Wave-wave interference induced by the geomorphology (i.e. tidal channel) of the coastal environment is proposed as explanation for the localized formation of such bedforms. This study highlights that the combination of supercritical flows occurring in the surf-swash transition zone and wave-wave interferences can generate dome-like bedforms in intertidal zones.