Acroniem: SMS Periode: 2013 tot 2017 Status: Afgelopen
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Instituten (4) |
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- Ente per le Nuove Tecnologie, l'Energia e l'Ambiente (ENEA), meer
- National Institute of Biology (NIB), meer
- University of Thessaly (TUC), meer
- Hassan II University - Casablanca, meer
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Abstract |
SMS will deliver a novel automated networked system that will enable real-time in situ monitoring of marine water chemical and ecological status in coastal areas by the detection of a series of contaminants regulated by the MSFD. SMS will design a multi-modular apparatus that will host in a single unit—the Main Box (MB)—a Sampling Module and an Analysis Module. The former will contain sample collection and treatment components, whereas the latter will include four biosensor sub-modules that will enable detection and measurement of algal toxins and their associated algal species; several hazardous compounds (tributyltin, diuron and pentaBDPE); sulphonamides and a series of standard water quality parameters. The MB will be equipped with a communication module for real-time data transfer to a control center, where data processing will take place, enabling alarm functionality to Health Warning Systems, whenever some critical value exceeds a pre-defined threshold. It will be placed on a floating platform or buoy positioned in loco at defined locations. SMS will also develop a Specific Marine Pollution Metric that will combine real-time data of pollutant concentrations and water quality parameters, to produce a quantitative assessment of marine water quality. All work will culminate in showcasing the project’s results in three demonstration sites: in La Spezia, Italy, in the Slovenian Adriatic Sea and in the Alonissos marine park in Greece. The consortium brings together skills from industry and academia to address the proposed work program. The record track of the partners is a strong indication that the project will achieve its ambitious objectives and make a lasting impact through its exploitation plan. The technology development and test cases bring together a multi-sectorial team of experts interacting with endusers and marine water stakeholders, demonstrating that ICT, biotechnology and nanotechnology can increase the potential of biosensors for marine applications. |
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