Data and maps

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This indicator presents the trends in the volume and the share of the use of EU Emissions Trading System (ETS) auctioning revenues by categories of spending.

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Water abstraction is from groundwater and surface water. Surface water contains water abstraction from rivers, reservoirs and lakes. The figure illustrates total annual water abstraction from groundwater and surface water by economic sector, i.e. agriculture, electricity cooling, manufacturing cooling, manufacturing, mining and quarrying, construction and public water supply, as defined in NACE (Statistical Classification of Economic Activities in the European Communities) sections. Hydropower is excluded.

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The figure shows the change, in percentage points, in the contribution of buses and trains (collective transport modes) to total inland passenger transport (left panel) and inland waterways and trains (non-road modes) to total freight transport (right panel) by country for the period 2005-2020.

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The map shows the spatial distribution of Floating Macrolitter Loading from Europe into the ocean based on mean-based modelled estimates calculated using the RIMMEL database. The coloured dots represent litter loading predicted on the basis of the Mamanaged Waste in each individual drainage basin, including permanent rivers, non-permanent rivers and streams.

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The figure shows estimated Market Demand in 2021 for the EU-27 plus United Kingdom, Switzerland, and Norwey in percentages. The above data are rounded estimations. Demand data are built on estimations of quantities bought by European converters, including imports. Demand for recycled plastics and bio-based/bio-attributed plastics is not included. Polymers that are not used in the conversion of plastic parts and products (i.e. for textiles, adhesives, sealants, coatings, etc.) are not included.

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The example present results from EEA's regular mapping for the indicators ‘Imperviousness and imperviousness change in Europe’, for the inventory year 2018.

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This data shows median of marine litter items by beach and marine region, based on Marine Litter Watch (MLW) dataset in the period 2013-2020.

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Datasets showing SO2 (2014 and 2019), NOx (2019), PM2.5 (2019) emissions in European shipping areas. These datasets have been prepared in relation to the development of the first European Maritime Transport Environmental Report (EMSA-EEA report, 2021: https://www.eea.europa.eu/publications/maritime-transport).

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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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The figure shows estimated Market Demand in 2021 for the EU-27 plus United Kingdom, Switzerland, and Norwey in percentages. The above data are rounded estimations. Demand data are built on estimations of quantities bought by European converters, including imports. Demand for recycled plastics and bio-based/bio-attributed plastics is not included. Polymers that are not used in the conversion of plastic parts and products (i.e. for textiles, adhesives, sealants, coatings, etc.) are not included.

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See report Marine Litter in Europe-An integrated assessment from source to sea (https://forum.eionet.europa.eu/etc-icm-consortium/library/subvention-2022/tasks-and-milestones-2022/1.1.8.1-marine-litter-assessment/milestone-2-addressing-comments-eea-and-finalization-assessment-report/final-version-november-2022-eea-approval/etc-icm_marine-litter-assessment_master_v5.2_06112022_for-eea-approval)

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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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Water abstraction is from groundwater and surface water. Surface water contains water abstraction from rivers, reservoirs and lakes. The figure illustrates total annual water abstraction from groundwater and surface water by economic sector, i.e. agriculture, electricity cooling, manufacturing cooling, manufacturing, mining and quarrying, construction and public water supply, as defined in NACE (Statistical Classification of Economic Activities in the European Communities) sections. Hydropower is excluded.

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Annual total water abstraction considered by economic sector i.e. agriculture (including forestry and fishing), electricity cooling, manufacturing cooling, manufacturing, mining and quarrying, construction and public water supply, as defined in NACE (Statistical Classification of Economic Activities in the European Communities) sections. Hydropower is excluded.

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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 2020 in EU-27 (2020) countries plus Iceland, which were reported by countries in 2022. Data are provisional, pending compliance assessment by the European Commission.

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The map shows the spatial distribution of Floating Macrolitter Loading from Europe into the ocean based on mean-based modelled estimates calculated using the RIMMEL database. The coloured dots represent litter loading predicted on the basis of the Mamanaged Waste in each individual drainage basin, including permanent rivers, non-permanent rivers and streams.

Read more

The example present results from EEA's regular mapping for the indicators ‘Imperviousness and imperviousness change in Europe’, for the inventory year 2018.

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Water exploitation index plus (WEI+) illustrates the percentage of water use versus water available in the respective subbasin.

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This indicator presents the trends in the volume and the share of the use of EU Emissions Trading System (ETS) auctioning revenues by categories of spending.

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The figure shows the change, in percentage points, in the contribution of buses and trains (collective transport modes) to total inland passenger transport (left panel) and inland waterways and trains (non-road modes) to total freight transport (right panel) by country for the period 2005-2020.

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The figure shows the share of bus and trains (collective modes) and of inland waterways and trains (non-road modes) in total inland passenger and freight transport activity respectively in the EU-27.

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