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ARTÍCULO
TITULO

Monitoring and Forecasting the Ocean State and Biogeochemical Processes in the Black Sea: Recent Developments in the Copernicus Marine Service

Stefania A. Ciliberti    
Marilaure Grégoire    
Joanna Staneva    
Atanas Palazov    
Giovanni Coppini    
Rita Lecci    
Elisaveta Peneva    
Marius Matreata    
Veselka Marinova    
Simona Masina    
Nadia Pinardi    
Eric Jansen    
Leonardo Lima    
Ali Aydogdu    
Sergio Creti?    
Laura Stefanizzi    
Diana Azevedo    
Salvatore Causio    
Luc Vandenbulcke    
Arthur Capet    
Catherine Meulders    
Evgeny Ivanov    
Arno Behrens    
Marcel Ricker    
Gerhard Gayer    
Francesco Palermo    
Mehmet Ilicak    
Murat Gunduz    
Nadezhda Valcheva and Paola AgostiniaddShow full author listremoveHide full author list    

Resumen

The Black Sea Monitoring and Forecasting Center (BS-MFC) is the European reference service for the provision of ocean analyses, forecasts, and reanalyses in the Black Sea basin. It is part of the Copernicus Marine Environment and Monitoring Service (CMEMS) and ensures a high level of efficiency in terms of operations, science, and technology for predictions and the monitoring of physical and biogeochemical processes in the Black Sea. The operational BS-MFC framework is based on state-of-the-art numerical models for hydrodynamics, biogeochemistry, and waves; analysis, forecast, and reanalysis are provided on a spatial grid with about 3 km of horizontal resolution that covers the whole Black Sea basin (the Azov Sea is not included). The scientific assessment of BS-MFC products is performed by implementing a product quality dashboard that provides pre-qualification and operational model skills according to GODAE/OceanPredict standards. Novel interfaces based on high-resolution models are part of the scientific development plan to ensure a strong connection with the nearest seas from a modelling point of view, in particular with the Mediterranean Sea. To improve forecasting skills, dedicated online coupled systems are being developed, which involve physics, biogeochemistry, and waves together with the atmosphere and, in the future, with ensemble forecasting methodologies and river-ocean interfaces.

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