The contribution of sand ripple and slope driven sediment flux to morphologic change of an idealized mound under waves

Autor: Lee, Seok-Bong, Wengrove, Meagan, de Schipper, Matthieu, Hopkins, Julia, Kleinhans, Maarten, Ruessink, Gerben, Proceskunde, Coastal dynamics, Fluvial systems and Global change, Biogeomorphology of Rivers and Estuaries
Přispěvatelé: Proceskunde, Coastal dynamics, Fluvial systems and Global change, Biogeomorphology of Rivers and Estuaries
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: Journal of Geophysical Research: Earth Surface, 128(1), 1. Wiley
ISSN: 2169-9003
Popis: We investigate pathways of sediment diffusion for a Gaussian-shaped sand mound subjected to monochromatic waves. Our unique results nearly close the sediment budget by quantifying each of the sediment transport processes responsible for mound diffusion associated with sediment flux due to slope driven transport and ripple migration. Downslope ripple progression was observed as ripples formed at the mound top advanced down the side slopes in a direction perpendicular to wave propagation. Once ripples formed on the sides of the mounds the ripples became pathways for sediment flux from the top to the bottom of the mound, persisting even after ripples reached the base of the mound as sediment avalanching due to gravity and mound slope. Lateral ripple migration caused ripples to migrate along the sides of the sand mound in a direction parallel to wave propagation. Once ripples reached the base of the mound, lateral migration of ripples caused spreading of sand around the sides of the mound. Lateral ripple migration was largely driven by ripple splitting caused by a large downslope sediment flux from the center of the mound that generated ripples with longer wavelengths than wave orbital hydrodynamics could support. To restore equilibrium between sediment and flow conditions, ripples with longer wavelengths continuously split and migrated laterally around the mound. Our results reflect the importance of slope driven transport, bed fluidization, and ripple dynamics on the larger scale diffusivity and suggest that slope driven and ripple driven sediment fluxes should be more explicitly included in sediment transport formulations.
Databáze: OpenAIRE
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