Data and maps

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The figure shows the proportion of commercial European fish landings assessed per regional sea distinguishing between assessed and non-assessed stocks. For the assessed stocks a distinction is made between (i) landings of stocks for which information is available to determine Good Environmental Status (GES) for Fishing mortality (F) and/or Spawning Stock Biomass (SSB) and (ii) landings for stocks for which information is not available to determine GES for F and/or SSB.

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The maps show the temporal development of the ratio between the number of warm-favouring (Lusitanian) fish species and the number of cool-favouring (Boreal) fish species by International Council for the Exploration of the Sea (ICES) statistical area in 5-year intervals from 1985 to 2020.

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The charts show: - Top figures: the temporal development in the number of species of each biogeographical affinity group (Atlantic, Boreal, Lusitania and Unknown) by marine region (Greater North Sea, Baltic Sea, Celtic Seas and Bay of Biscay and Iberian Coast). - Bottom figures: the temporal development of the ratio between Lusitanian and Boreal species and sea surface temperature by marine region to investigate correlations.

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This figure shows trends in the status of assessed commercially exploited fish and shellfish stocks between 1947 and 2019, expressed in two metrics-fishing mortality (F) and reproductive capacity (i.e. spawning stock biomass (SSB))-relative to their policy thresholds for the Marine Strategy Framework Directive's 'good environmental status' (GES) (i.e. FMSY and MSY Btrigger, respectively).

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This data has been calculated by EEA based on Eurostat consumption trend data, EXIOBASE and the Environmental Footprint (EF). The calculations summarize the level of consumption footprint in million points (the environmental and climate impacts that result from EU citizens’ consumption) for EU27 member countries between 2010 to 2020, and the level of consumption footprint in points per capita (the environmental and climate impacts that result from EU citizens’ consumption) for EU27 member countries in 2020 compared to 2010.

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The European inventory of nationally designated protected areas holds information about designated areas and their designation types, which directly or indirectly create protected areas. This is version 20 and covers data reported until May 2022.

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We all want to know the quality of 'our' local bathing area, beach or lake, and whether it conforms to EU standards. Below you will find a map viewer that will allow you to view on-line the quality of the bathing water in the almost 22 000 coastal beaches and freshwater bathing waters across Europe.

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NEW MOBILE APP AVAILABLE FOR DOWNLOAD --- How clean is the air you’re breathing right now? How does the air in your city compare with that of a neighbouring city or region? Air pollution is the single largest environmental health risk in Europe. The European Environment Agency's European Air Quality Index allows users to understand more about air quality where they live. Displaying up-to-the-minute data for the whole of Europe, users can gain new insights into the air quality of individual countries, regions and cities.

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EU legislation has led to improvements in air quality, with the percentage of urban citizens exposed to pollutant levels above standards set to protect human health falling between 2000 and 2019. However, poor air quality remains a problem: in 2019, 21% of citizens were exposed to O 3 and 10% to PM 10  levels above EU standards. This is mainly because of emissions from transport and buildings, but also from agriculture and industry. Without radical changes to mobility, energy and food systems and industry, it is unlikely that air quality targets will be met in the near future.

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Historical greenhouse gas emissions from the EU buildings sector show a decreasing trend since 2005. This is the result of the implementation of higher standards for new buildings, measures to increase energy efficiency in existing buildings (e.g. through changing of heating systems, thermal insulation and more efficient heating systems), measures to decarbonise the electricity sector but also warmer temperatures. These reductions were partly offset by the increase in dwellings and by a larger average floor area in buildings. The trend in reducing emissions is expected to continue in the future, but a very strong increase in the renovation rate is needed to meet the overall EU 2030 emissions target.

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EU legislation has led to improvements in air quality, with the percentage of urban citizens exposed to pollutant levels above standards set to protect human health falling between 2000 and 2019. However, poor air quality remains a problem: in 2019, 21% of citizens were exposed to O 3 and 10% to PM 10  levels above EU standards. This is mainly because of emissions from transport and buildings, but also from agriculture and industry. Without radical changes to mobility, energy and food systems and industry, it is unlikely that air quality targets will be met in the near future.

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Historical greenhouse gas emissions from the EU buildings sector show a decreasing trend since 2005. This is the result of the implementation of higher standards for new buildings, measures to increase energy efficiency in existing buildings (e.g. through changing of heating systems, thermal insulation and more efficient heating systems), measures to decarbonise the electricity sector but also warmer temperatures. These reductions were partly offset by the increase in dwellings and by a larger average floor area in buildings. The trend in reducing emissions is expected to continue in the future, but a very strong increase in the renovation rate is needed to meet the overall EU 2030 emissions target.

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Through its land use, land use change and forestry (LULUCF) activities, the EU currently removes a net total of 249 Mt CO 2 e from the atmosphere every year, equivalent to 7% of its annual greenhouse gas emissions. The sector will play a crucial role in helping the EU achieve net zero emissions by 2050. Doing so will require reversing the current decreasing trend of the EU's  carbon sink . According to national projections from EU Member States, current measures in place will not be sufficient to achieve this, with an average removal of 200 Mt CO 2 e per year in 2030. However, implementing the national measures currently at planning stage could increase the current EU carbon sink by 3%.

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The chart shows the percentage of locations with statistically significant: (1) decreasing trend (green), (2) no trend (grey) and (3) increasing trend (orange) by marine regions. The total number of locations in each subregion is shown in brackets.

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We all want to know the quality of 'our' local bathing area, beach or lake, and whether it conforms to EU standards. Below you will find a map viewer that will allow you to view on-line the quality of the bathing water in the almost 22 000 coastal beaches and freshwater bathing waters across Europe.

Read more

NEW MOBILE APP AVAILABLE FOR DOWNLOAD --- How clean is the air you’re breathing right now? How does the air in your city compare with that of a neighbouring city or region? Air pollution is the single largest environmental health risk in Europe. The European Environment Agency's European Air Quality Index allows users to understand more about air quality where they live. Displaying up-to-the-minute data for the whole of Europe, users can gain new insights into the air quality of individual countries, regions and cities.

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The urban waste water treatment map shows the most recently reported information on the implementation of the Urban Waste Water Treatment Directive (UWWTD). It is based on data from 2018 in EU-28 countries plus Iceland and Norway, which were reported by countries in 2020.

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The figure shows the proportion of commercial European fish landings assessed per regional sea distinguishing between assessed and non-assessed stocks. For the assessed stocks a distinction is made between (i) landings of stocks for which information is available to determine Good Environmental Status (GES) for Fishing mortality (F) and/or Spawning Stock Biomass (SSB) and (ii) landings for stocks for which information is not available to determine GES for F and/or SSB.

Read more

The maps show the temporal development of the ratio between the number of warm-favouring (Lusitanian) fish species and the number of cool-favouring (Boreal) fish species by International Council for the Exploration of the Sea (ICES) statistical area in 5-year intervals from 1985 to 2020.

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The maps show trends in annual 25-percentile of oxygen concentrations in near-bottom waters at stations with at least 6 years of observations in the period 1989-2019, by three classes of DO concentrations: <4mg/l (including <2mg/l class); 4-6mg/l and >6mg/l. Only trends for time series ending after 2000 are included. The chart shows the number of time series with increasing, decreasing and no trend in the North-East Atlantic Ocean and Baltic Sea for the three classes of DO concentrations during the same period (1989-2019).

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The charts show: - Top figures: the temporal development in the number of species of each biogeographical affinity group (Atlantic, Boreal, Lusitania and Unknown) by marine region (Greater North Sea, Baltic Sea, Celtic Seas and Bay of Biscay and Iberian Coast). - Bottom figures: the temporal development of the ratio between Lusitanian and Boreal species and sea surface temperature by marine region to investigate correlations.

Read more

This figure shows trends in the status of assessed commercially exploited fish and shellfish stocks between 1947 and 2019, expressed in two metrics-fishing mortality (F) and reproductive capacity (i.e. spawning stock biomass (SSB))-relative to their policy thresholds for the Marine Strategy Framework Directive's 'good environmental status' (GES) (i.e. FMSY and MSY Btrigger, respectively).

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The table shows the Survey name, the ICES sub-division in which the survey is undertaken, the gear used in the survey, the initial start date of the survey and the quarter used for the assessments.

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