TY - JOUR T1 - Intrusion of Rhone River diluted water into the Bay of Marseille: Generation processes and impacts on ecosystem functioning A1 - Fraysse,Marion A1 - Pairaud,Ivane A1 - Ross,Oliver N. A1 - Faure,Vincent M. A1 - Pinazo,Christel AD - Inst Francais Rech Exploitat Mer, Lab Environm Ressources Provence Azur Corse, La Seyne Sur Mer, France. AD - Univ Toulon & Var, Univ Aix Marseille, CNRS, IRD,MIO UM 110, F-13288 Marseille, France. UR - https://archimer.ifremer.fr/doc/00245/35612/ DO - 10.1002/2014JC010022 KW - three-dimensional physical KW - biogeochemical modeling KW - Rhone River intrusions KW - biogeochemical mass balances KW - coastal processes KW - Bay of Marseille (Mediterranean Sea) N2 - The Rhone River provides the largest inputs of terrestrial freshwater and nutrients into the Mediterranean Sea. The Rhone River diluted water intrusions into the Bay of Marseille were investigated, examining their physical generation processes and associated biogeochemical impact by using in situ observations, remote sensing data, and a three-dimensional physical/biogeochemical coupled model. During our study period from 2007 to 2011, Rhone River intrusions occurred on average 7.6 times per year and affected more frequently the northern part of the bay. A classification of intrusion events in three categories is proposed (short lived, big, and small) as a function of their duration and spatial extent. The intrusions appeared to be driven by: (i) wind forcing, (ii) the presence of a mesoscale eddy, (iii) the Rhone River discharge volume, and (iv) the variation in thermocline depth. Typically, a combination of these favorable factors was necessary to induce an intrusion. An intrusion strongly impacts the biogeochemical functioning of the Bay of Marseille by bringing large quantities of nutrients into the bay. Mass balances were computed allowing us to quantify this impact on the Bay of Marseille. The results show that the ecological impact depends very much on the type of intrusion, with big intrusions having the highest impact. Y1 - 2014/10/01 PB - Amer Geophysical Union JF - Journal Of Geophysical Research-oceans SN - 0148-0027 VL - 119 IS - 10 SP - 6535 EP - 6556 ID - 35612 ER -