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Model-based reconstruction of the Ulysse-Virginia oil spill

S. Liubartseva, M. Smaoui, G. Coppini, G. Gonzalez, R. Lecci, S. Cretì, I. Federico
Model-based reconstruction of the Ulysse-Virginia oil spill, October–November 2018, Marine Pollution Bulletin, Volume 154, 2020, 111002, ISSN 0025-326X

In response to the oil spill caused by the collision between the Ro-Ro ship Ulysse and CSL Virginia on 7th October 2018, the Lagrangian oil spill model MEDSLIK-II was utilized to predict spill transport and fate. Oil drift was forced by the high-resolution sea circulation provided by CMEMS and the ECMWF wind. Successive model runs were restarted 5 times with the distinct overflight- and satellite-derived observations provided by REMPEC and the Copernicus Sentinel-1 mission. The results were verified based on the ability to predict the first oil-beaching event that happened near Saint-Tropez (France) in the early afternoon of 16th October. Despite the general consistency among the runs, only the last initialization was able to forecast the oil beaching. Stochastic MEDSLIK-II simulations forced by the historical meteo-oceanographic datasets 2014–2018 revealed that the coastlines between Cap Lardier and the Gulf of Saint-Tropez were among the most impacted areas.