This numerical modeling study (i) assesses the influence of the sediment erosion process on the sediment dynamics and subsequent morphological changes of a mixed-sediment environment, the macrotidal Seine estuary, when non-cohesive particles are dominant within bed mixtures (non-cohesive regime), and (ii) investigates respective contributions of bedload and suspended load in these dynamics. A three dimensional (3D) process-based morphodynamic model was set up and run under realistic forcings (including tide, waves, wind, and river discharge) during a 1-year period. Applying erosion homogeneously to bed sediment in the non-cohesive regime, i.e., average erosion parameters in the erosion law (especially the erodibility parameter, E0), leads t...
Tidal flats provide essential ecosystem services (e.g. coastal protection and function as habitats s...
We present the sediment module designed for the two-dimensional depth-averaged and one-dimensional s...
Coastal environments are directly influenced by terrigenous inputs coming from rivers through estuar...
International audienceThe mouth of the Seine River estuary (France) has undergone marked morphologic...
Understanding the sediment dynamics in an estuary is important for its morphodynamic and ecological ...
Estuaries are subject to extensive morphological changes through human activities, such as deepening...
This dissertation presents a study of fine sediment transport and morphodynamics in estuarine settin...
A better understanding is required about the relation between morphodynamics and mud in estuaries. C...
The York River estuary is categorized as micro-tidal with a tidal range ~0.8 m; however, periodicall...
(IF 1.54; Q3)International audienceThe aim of this study is to understand the evolution of the super...
AbstractThe aim of this study is to understand the evolution of the superficial sedimentation, over ...
Abstract Sediment fluxes at the estuary-sea interface strongly impact particle matter exchanges betw...
The aim of this study is to analyse and to quantify the fine particles transfer (i.e. 7.1 m). Then, ...
Simulation of particulate fluxes at the mouth of the Seine estuary : uncertainty assessment Morphod...
Many estuaries are strongly modified by human interventions, including substantive channel deepenin...
Tidal flats provide essential ecosystem services (e.g. coastal protection and function as habitats s...
We present the sediment module designed for the two-dimensional depth-averaged and one-dimensional s...
Coastal environments are directly influenced by terrigenous inputs coming from rivers through estuar...
International audienceThe mouth of the Seine River estuary (France) has undergone marked morphologic...
Understanding the sediment dynamics in an estuary is important for its morphodynamic and ecological ...
Estuaries are subject to extensive morphological changes through human activities, such as deepening...
This dissertation presents a study of fine sediment transport and morphodynamics in estuarine settin...
A better understanding is required about the relation between morphodynamics and mud in estuaries. C...
The York River estuary is categorized as micro-tidal with a tidal range ~0.8 m; however, periodicall...
(IF 1.54; Q3)International audienceThe aim of this study is to understand the evolution of the super...
AbstractThe aim of this study is to understand the evolution of the superficial sedimentation, over ...
Abstract Sediment fluxes at the estuary-sea interface strongly impact particle matter exchanges betw...
The aim of this study is to analyse and to quantify the fine particles transfer (i.e. 7.1 m). Then, ...
Simulation of particulate fluxes at the mouth of the Seine estuary : uncertainty assessment Morphod...
Many estuaries are strongly modified by human interventions, including substantive channel deepenin...
Tidal flats provide essential ecosystem services (e.g. coastal protection and function as habitats s...
We present the sediment module designed for the two-dimensional depth-averaged and one-dimensional s...
Coastal environments are directly influenced by terrigenous inputs coming from rivers through estuar...