Abstract
In this paper, the development of a Web-based GIS system for the monitoring and assessment of the Black Sea is presented. The integrated multilevel system is based on the combination of terrestrial and satellite Earth observation data through the technological assets provided by innovative information tools and facilities. The key component of the system is a unified, easy to update geodatabase including a wide range of appropriately selected environmental parameters. The collection procedure of current and historical data along with the methods employed for their processing in three test areas of the current study are extensively discussed, and special attention is given to the overall design and structure of the developed geodatabase. Furthermore, the information system includes a decision support component (DSC) which allows assessment and effective management of a wide range of heterogeneous data and environmental parameters within an appropriately designed and well-tested methodology. The DSC provides simplified and straightforward results based on a classification procedure, thus contributing to a monitoring system not only for experts but for auxiliary staff as well. The examples of the system’s functionality that are presented highlight its usability as well as the assistance that is provided to the decision maker. The given examples emphasize on the Danube Delta area; however, the information layers of the integrated system can be expanded in the future to cover other regions, thus contributing to the development of an environmental monitoring system for the entire Black Sea.
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This research was funded by the EU—Joint Operational Programme “Black Sea 2007–2013” in the frame of the project “Development of a common intraregional monitoring system for the environmental protection and preservation of the Black Sea—ECO-Satellite.”
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Tziavos, I.N., Alexandridis, T.K., Aleksandrov, B. et al. Development of a Web-based GIS monitoring and environmental assessment system for the Black Sea: application in the Danube Delta area. Environ Monit Assess 188, 492 (2016). https://doi.org/10.1007/s10661-016-5492-z
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DOI: https://doi.org/10.1007/s10661-016-5492-z