Litcius/Paper detail

First‐Order River Delta Morphology Is Explained by the Sediment Flux Balance From Rivers, Waves, and Tides

Connor Broaddus, Lawrence Vulis, Jaap H. Nienhuis, Alejandro Tejedor, J. M. Brown, Efi Foufoula‐Georgiou, Douglas A. Edmonds

2022Geophysical Research Letters24 citationsDOIOpen Access PDF

Abstract

Abstract We present a novel quantitative test of a 50‐year‐old hypothesis which asserts that river delta morphology is determined by the balance between river and marine influence. We define three metrics to capture the first‐order morphology of deltas (shoreline roughness, number of distributary channel mouths, and presence/absence of spits), and use a recently developed sediment flux framework to quantify the river‐marine influence. Through analysis of simulated and field deltas we quantitatively demonstrate the relationship between sediment flux balance and delta morphology and show that the flux balance accounts for at least 35% of the variance in the number of distributary channel mouths and 42% of the variance in the shoreline roughness for real‐world and simulated deltas. We identify a tipping point in the flux balance where wave influence halts distributary channel formation and show how this explains morphological transitions in real world deltas.

Topics & Concepts

DeltaRiver deltaFlux (metallurgy)SedimentShoreGeologyChannel (broadcasting)Hydrology (agriculture)Sediment transportGeomorphologyOceanographyPhysicsGeotechnical engineeringAstronomyElectrical engineeringMetallurgyMaterials scienceEngineeringGeological formations and processesHydrology and Sediment Transport ProcessesCoastal wetland ecosystem dynamics