%0 Edited Book
%9 DO : Directions d'ouvrages ou de revues
%A Ouillon, Sylvain
%T Sediment transport in coastal waters
%D 2017
%L fdi:010070465
%G ENG
%J Water
%@ 2073-4441
%K VIET NAM ; BENIN ; GOLFE DE GUINEE ; SENEGAL ; AFRIQUE DE L'OUEST ; NOUVELLE CALEDONIE ; ALGERIE ; AUSTRALIE
%K MEKONG DELTA
%N no spécial
%P 150
%U https://www.documentation.ird.fr/hor/fdi:010070465
%> https://horizon.documentation.ird.fr/exl-doc/pleins_textes/divers17-07/010070465.pdf
%V 9
%W Horizon (IRD)
%X Globally, while land erosion has increased in the last decades, sediment input to the ocean has decreased. Sediment transport and distribution at the land-ocean interface has huge impacts on morphodynamics of estuaries, deltas and coastal zones, on water quality (and related issues such as aquaculture), on navigation and harbor capability, on recreation areas, etc. Scientific objectives must be achieved to deepen our knowledge on processes based on field surveys, modeling, space observation or experiments in laboratory, to refine the sediment budget (bedload and suspension) between compartments, and to improve our observation and modelling capacities. Sediment transport which is mainly driven by varying dynamical forcings (currents, tides, wind, waves, turbulence, stratification, density currents, etc.) in the estuary, in the ROFI zone, on the shelf or in canyons may also be affected by chemical and biological processes. In this Special Issue, we invite scientists working on different aspects of sediment transport, in muddy, sandy or mixed environments, to share their most recent results and give reviews or examples encompassing different aspects of sediment transport in coastal zones at different scales. Papers may deal with water and sediment analysis (including Particle Size Distribution), modeling, and remote sensing.
%$ 062 ; 032 ; 020