The present layer compiles the marine regions and subregions listed in Article 4 of the Marine Strategy Framework Directive (MSFD), together with other surrounding seas of Europe. The MSFD marine regions and subregions map was developed to support DG Environment and EU Member States in their implementation of the MSFD. It represents the current state of understanding of the marine regions and subregions and is subject to amendment in light of any new information which may be produced.

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Marine protected areas (MPAs) are geographically distinct zones for which protection objectives are set. They constitute a globally acknowledged system for safeguarding biodiversity and maintaining marine ecosystem services.

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Despite an estimated decrease of total water abstraction by 19 % since 1990 in Europe, the milestone set in the EU resource efficiency roadmap — i.e. a water abstraction should stay below 20 % of available renewable water resources in Europe — has not been achieved in 36 river basins corresponding to 19 % of Europe’s territory in summer 2015. Around 30 % of the total European population was exposed to water scarcity conditions in summer 2015 compared to 20% in 2014, mainly living in densely populated European cities, agriculture-dominated areas of southern Europe and small Mediterranean islands.  From 2000 to 2015, in the EU-28, there was an absolute decoupling of water abstraction (-9 %) and the gross value added generated from all economic sectors (+53 %). A rapid increase (+11%) has been observed in bottled water consumption from 2010, particularly in southern and western Europe.

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This interactive map gives a European overview of water stress conditions. The information presented may deviate from that available in the EEA member countries and cooperating countries, particularly for those countries where data availability is insufficient in the WISE SoE – Water quantity database (WISE 3). Data on hydro-climatic variables was aggregated from a daily to a monthly scale. Water abstraction data was taken from WISE 3 (annual resolution at the national scale), although there are large gaps in the time series. Therefore, intensive gap filling was performed on water abstraction data and proxies were used to disaggregate the data from the national to the sub-basin scale. Information on water use was mainly modelled on the UWWTP capacities, the E-PRTR database and the Eurostat Population change dataset (online data code [demo_gind]) among others. See the methodology chapter for further explanation of gap filling, and spatial and temporal disaggregation, and the data uncertainties chapter for current data availability. This interactive map allows users to explore changes over time in water abstraction by source, water use by sector and water stress level at sub-basin or river basin scale. The WEI+ has been estimated as the quarterly average per river basin district, for the years 1990-2015, as defined in the European catchments and rivers network system (ECRINS). The ECRINS delineation of river basin districts differs slightly from that defined by Member States under the Water Framework Directive. The Ecrins delineation is used instead of WFD because it contains geo-spatial information on Europe’s hydrographical systems with full topological information enabling flow estimation between upstream and downstream basins, as well as integration of economic data collected at NUTS or country level. In addition to using e WISE SoE – Water quantity database, a comprehensive manual data collection was performed by accessing all open sources (Eurostat, OECD, FAO) including national statistical offices of the countries. This was done because of the temporal and spatial gaps in the data on water abstraction. Moreover, a large part of the stream flow data from LISFLOOD has also been substantially updated by the Directorate-General Joint Research Centre. Similarly, a comprehensive update with climatic parameters has been performed by the EEA based on the E-OBS dataset. Therefore, the time series of the WEI+ presented in the current version might be slightly different for some basins compared with the previous version.

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The Water Framework Directive (WFD) reference spatial data sets include information about European river basin districts, river basin district sub-units, surface water bodies, groundwater bodies and monitoring sites used in the first and second River Basin Management Plans (RBMP). The data sets are part of the Water Information System for Europe (WISE), and compile information reported by the EU Member States and Norway to the European Commission (EC) and the European Environment Agency (EEA) since 2010.

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Surface water bodies failing to achieve good chemical status, by RBDs with uPBTs.

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The illustration shows the distribution of marine litter reported by the public and where they were found

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Marine aquaculture production is increasing in Europe (EEA39) since the early 1990s , mostly due to salmon production in Norway which is the main producer.  For the same period of time, inland aquaculture in Europe is stable, and the main producer is Turkey, indicating that much of Europe's aquaculture production takes place outside the EU28 (Figure 3). In 2015, the most cultivated species in Europe (EEA39) was Atlantic salmon, while in the EU28 blue mussels were dominant. Other important species include rainbow trout, European sea bass, gilthead sea bream, oysters and carps, barbels and other cyprinids. The countries that contribute the most to European production (EEA39) are Norway (approximately 46 % of total European production), followed by Spain, Turkey, the United Kingdom, France, Italy and Greece (Figure 6). These seven countries account for 90 % of all aquaculture production in Europe. Norway’s production is nearly all due to the farming of Atlantic salmon. Turkish production consists mainly of trout (inland), sea bream and sea bass (marine).

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Bathing water monitoring by country. Please note: for the scales 1:5.000.001 and less detailed, data are aggregated by country. In such case, stacked bars show percentage of bathing water quality for coastal and inland waters together. Number of bathing waters within certain category is seen in pop up window which can be turned on with a click on one of the countries. For the scale range 1:5 000.000 to 1:700,001, individual bathing water sites (points) are visible instead of classified stacked charts and are coloured according to the classification of bathing water quality. Symbol size depends on the map scale (in more detailed map scales symbols are bigger). For the scales 1:700,000 and more detailed, symbol of bather in a square appears instead of points. Symbol size depends on the map scale.

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Bathing water quality in the European Union in the 2011, 2012, 2013 and 2014 bathing seasons.

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Despite an estimated decrease of total water abstraction by 19 % since 1990 in Europe, the milestone set in the EU resource efficiency roadmap — i.e. a water abstraction should stay below 20 % of available renewable water resources in Europe — has not been achieved in 36 river basins corresponding to 19 % of Europe’s territory in summer 2015. Around 30 % of the total European population was exposed to water scarcity conditions in summer 2015 compared to 20% in 2014, mainly living in densely populated European cities, agriculture-dominated areas of southern Europe and small Mediterranean islands.  From 2000 to 2015, in the EU-28, there was an absolute decoupling of water abstraction (-9 %) and the gross value added generated from all economic sectors (+53 %). A rapid increase (+11%) has been observed in bottled water consumption from 2010, particularly in southern and western Europe.

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Marine aquaculture production is increasing in Europe (EEA39) since the early 1990s , mostly due to salmon production in Norway which is the main producer.  For the same period of time, inland aquaculture in Europe is stable, and the main producer is Turkey, indicating that much of Europe's aquaculture production takes place outside the EU28 (Figure 3). In 2015, the most cultivated species in Europe (EEA39) was Atlantic salmon, while in the EU28 blue mussels were dominant. Other important species include rainbow trout, European sea bass, gilthead sea bream, oysters and carps, barbels and other cyprinids. The countries that contribute the most to European production (EEA39) are Norway (approximately 46 % of total European production), followed by Spain, Turkey, the United Kingdom, France, Italy and Greece (Figure 6). These seven countries account for 90 % of all aquaculture production in Europe. Norway’s production is nearly all due to the farming of Atlantic salmon. Turkish production consists mainly of trout (inland), sea bream and sea bass (marine).

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This interactive map gives a European overview of water stress conditions. The information presented may deviate from that available in the EEA member countries and cooperating countries, particularly for those countries where data availability is insufficient in the WISE SoE – Water quantity database (WISE 3). Data on hydro-climatic variables was aggregated from a daily to a monthly scale. Water abstraction data was taken from WISE 3 (annual resolution at the national scale), although there are large gaps in the time series. Therefore, intensive gap filling was performed on water abstraction data and proxies were used to disaggregate the data from the national to the sub-basin scale. Information on water use was mainly modelled on the UWWTP capacities, the E-PRTR database and the Eurostat Population change dataset (online data code [demo_gind]) among others. See the methodology chapter for further explanation of gap filling, and spatial and temporal disaggregation, and the data uncertainties chapter for current data availability. This interactive map allows users to explore changes over time in water abstraction by source, water use by sector and water stress level at sub-basin or river basin scale. The WEI+ has been estimated as the quarterly average per river basin district, for the years 1990-2015, as defined in the European catchments and rivers network system (ECRINS). The ECRINS delineation of river basin districts differs slightly from that defined by Member States under the Water Framework Directive. The Ecrins delineation is used instead of WFD because it contains geo-spatial information on Europe’s hydrographical systems with full topological information enabling flow estimation between upstream and downstream basins, as well as integration of economic data collected at NUTS or country level. In addition to using e WISE SoE – Water quantity database, a comprehensive manual data collection was performed by accessing all open sources (Eurostat, OECD, FAO) including national statistical offices of the countries. This was done because of the temporal and spatial gaps in the data on water abstraction. Moreover, a large part of the stream flow data from LISFLOOD has also been substantially updated by the Directorate-General Joint Research Centre. Similarly, a comprehensive update with climatic parameters has been performed by the EEA based on the E-OBS dataset. Therefore, the time series of the WEI+ presented in the current version might be slightly different for some basins compared with the previous version.

Read more

Bathing water monitoring by country. Please note: for the scales 1:5.000.001 and less detailed, data are aggregated by country. In such case, stacked bars show percentage of bathing water quality for coastal and inland waters together. Number of bathing waters within certain category is seen in pop up window which can be turned on with a click on one of the countries. For the scale range 1:5 000.000 to 1:700,001, individual bathing water sites (points) are visible instead of classified stacked charts and are coloured according to the classification of bathing water quality. Symbol size depends on the map scale (in more detailed map scales symbols are bigger). For the scales 1:700,000 and more detailed, symbol of bather in a square appears instead of points. Symbol size depends on the map scale.

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Marine protected areas (MPAs) are geographically distinct zones for which protection objectives are set. They constitute a globally acknowledged system for safeguarding biodiversity and maintaining marine ecosystem services.

Read more

Surface water bodies failing to achieve good chemical status, by RBDs with uPBTs.

Read more

The illustration shows the distribution of marine litter reported by the public and where they were found

Read more

Bathing water quality in the European Union in the 2011, 2012, 2013 and 2014 bathing seasons.

Read more