With the purpose of establishing an European legislation aimed to protect inland surface waters, transitional waters, coastal waters and groundwater the European Parliament and the Council of the European Union adopted the Water Framework Directive 2000/60/EC (WFD). The holistic approach of the WFD for the management of waters have been adopted to protect water bodies considered as an interlinked system from the spring to the sea. Having the above in mind, two years ago was started the EUROCAT project funded by the European Commission as part of the FP5 which is aimed to define for different catchment-coastal zone continuums in Europe a possible policy responses to mitigate environmental pressures driven by main economic activities existing in the area. In order to account for different aspects related to spatial interactions between the watershed and coastal zone, the Drivers-Pressures-State-Impact-Response (DPSIR) framework was developed for the Po Catchment-Adriatic Coastal Zone continuum and applied as policy tool to evaluate important aspects to be considered during the implementation of the WFD. The DPSIR includes ecological as well as socio-economic indicators that represent the Drivers that create Pressures which are gradually integrated as the Status of the system is assessed. Evaluation of the Impact for different Drivers and Pressure factors allows to identify the optimal strategy(- ies) for achieving the objectives and goals of the WFD. The aim of this paper is to discuss and present the complex database that includes socio-economic, physical and ecological indicators for both the catchment and the coastal zone that have been used to run different biogeochemical and socio-economic models including the one for assessing nutrient fluxes in the catchment (MONERIS, Behrendt, 1996), the nutrient cycle in surface and deep seawaters of the Adriatic Sea (WASP model) and socio-economic models (i.e., DEFINITE) for different socioeconomic and environmental scenarios including the Business As Usual (BAU) and Policy Target (POT) scenarios.
Spatial Data Analysis and Database Development for the DPSIR Framework of the Po Catchment-Adriatic Coastal Zone Continuum
Cinnirella S;Pirrone N
2003
Abstract
With the purpose of establishing an European legislation aimed to protect inland surface waters, transitional waters, coastal waters and groundwater the European Parliament and the Council of the European Union adopted the Water Framework Directive 2000/60/EC (WFD). The holistic approach of the WFD for the management of waters have been adopted to protect water bodies considered as an interlinked system from the spring to the sea. Having the above in mind, two years ago was started the EUROCAT project funded by the European Commission as part of the FP5 which is aimed to define for different catchment-coastal zone continuums in Europe a possible policy responses to mitigate environmental pressures driven by main economic activities existing in the area. In order to account for different aspects related to spatial interactions between the watershed and coastal zone, the Drivers-Pressures-State-Impact-Response (DPSIR) framework was developed for the Po Catchment-Adriatic Coastal Zone continuum and applied as policy tool to evaluate important aspects to be considered during the implementation of the WFD. The DPSIR includes ecological as well as socio-economic indicators that represent the Drivers that create Pressures which are gradually integrated as the Status of the system is assessed. Evaluation of the Impact for different Drivers and Pressure factors allows to identify the optimal strategy(- ies) for achieving the objectives and goals of the WFD. The aim of this paper is to discuss and present the complex database that includes socio-economic, physical and ecological indicators for both the catchment and the coastal zone that have been used to run different biogeochemical and socio-economic models including the one for assessing nutrient fluxes in the catchment (MONERIS, Behrendt, 1996), the nutrient cycle in surface and deep seawaters of the Adriatic Sea (WASP model) and socio-economic models (i.e., DEFINITE) for different socioeconomic and environmental scenarios including the Business As Usual (BAU) and Policy Target (POT) scenarios.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
