TY - JOUR T1 - Effects of waves on coastal water dispersion in a small estuarine bay A1 - Delpey,Matthias A1 - Ardhuin,Fabrice A1 - Otheguy,P. A1 - Jouon,Aymeric AD - Lyonnaise Eaux, Ctr Rivages Pro Tech, FR-64210 Bidart, France. AD - IFREMER, Lab Oceanog Spatiale, Plouzane, France. UR - https://archimer.ifremer.fr/doc/00170/28161/ DO - 10.1002/2013JC009466 KW - nearshore dispersion KW - wave-current interactions KW - river plume KW - numerical modeling N2 - A three-dimensional wave-current model is used to investigate wave-induced circulations in a small estuarine bay and its impact on freshwater exchanges with the inner shelf, related to stratified river plume dispersion. Modeled salinity fields exhibit a lower salinity surface layer due to river outflows, with typical depth of 1 m inside the bay. The asymmetric wave forcing on the bay circulation, related to the local bathymetry, significantly impacts the river plumes. It is found that the transport initiated in the surf zone by the longshore current can oppose and thus reduce the primary outflow of freshwater through the bay inlets. Using the model to examine a high river runoff event occurring during a high-energy wave episode, waves are found to induce a 24 h delay in freshwater evacuation. At the end of the runoff event, waves have reduced the freshwater flux to the ocean by a factor 5, and the total freshwater volume inside the bay is increased by 40%. According to the model, and for this event, the effect of the surf zone current on the bay flushing is larger than that of the wind. The freshwater balance is sensitive to incident wave conditions. Maximum freshwater retention is found for intermediate offshore wave heights 1 m < Hs < 2 m. For higher-energy waves, the increase in the longshore current reduces the retention, which is two times lower for Hs = 4 m than for Hs = 2 m. Y1 - 2014/01 PB - Amer Geophysical Union JF - Journal Of Geophysical Research-oceans SN - 0148-0027 VL - 119 IS - 1 SP - 70 EP - 86 ID - 28161 ER -