Data and maps

The Monitoring Mechanism Regulation ((EC) No 525/2013) requires Member States to report national projections of anthropogenic GHG emissions. Every two years, each EU Member State shall report GHG projections in a ‘with existing measures’ scenario for the years 2020, 2025, 2030 and 2035, by gas (or group of gases) and by sector. National projections shall take into consideration any policies and measures adopted at Union level. The reported data are quality checked by the EEA and its European Topic Centre for Climate Change Mitigation and Energy (ETC/CME).

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All Member States are requested by the Habitats Directive to monitor habitat types and species listed in its annexes and send a report every 6 years following an agreed format. The assessment of conservation status is based on information about the status and trends of species populations and of habitats at the level of the biogeographical or marine region.

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The map shows the biogeographical and marine Regions for EU28 countries.

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This map is a cartogram that distorts the geometry of regions to convey specific information by resizing. The bottom left box refers to the Macaronesian islands (Azores, Madeira and Canary Islands). It only includes terrestrial Natura 2000 sites for EU-28 (SPAs, SACs, SCIs and proposed SCIs).

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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 2018. However, poor air quality remains a problem: in 2018, 34 % of citizens were exposed to O 3 and 15 % to PM 10 above EU limit values. This is mainly due to 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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Global mean near-surface temperature during the last decade (2010-2019) was 0.94 to 1.03 °C warmer than the pre-industrial level, which makes it the warmest decade on record. European land temperatures have increased even faster over the same period, by 1.7 to 1.9 °C. All UNFCC member countries have committed in the Paris Agreement to limiting the global temperature increase to well below 2 °C above the pre-industrial level and to aim to limit the increase to 1.5 °C. Without drastic cuts in global greenhouse gas emissions, even the 2 °C limit will already be exceeded before 2050.

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The WISE Water Framework Directive Quality Elements map contains information from the 2nd River Basin Management Plans (RBMPs) reported by EU Members States and Norway according to article 13 of the Water Framework Directive (WFD). The map shows the ecological status or potential of surface water bodies based on their quality elements status value. The following quality elements are presented: QE1 - Biological quality elements; QE1-1 - Phytoplankton; QE1-2 - Other aquatic flora QE1-2-1 - Macroalgae; QE1-2-2 - Angiosperms; QE1-2-3 - Macrophytes; QE1-2-4 - Phytobenthos; QE1-3 - Benthic invertebrates; QE1-4 - Fish; QE2 - Hydromorphological quality elements; QE2-1 - Hydrological or tidal regime; QE2-2 - River continuity conditions; QE2-3 - Morphological conditions; QE3 - Chemical and physico-chemical quality elements; QE3-1 - General parameters; QE3-1-1 - Transparency conditions; QE3-1-2 - Thermal conditions; QE3-1-3 - Oxygenation conditions; QE3-1-4 - Salinity conditions; QE3-1-5 - Acidification status; QE3-1-6 - Nutrient conditions; QE3-1-6-1 - Nitrogen conditions; QE3-1-6-2 - Phosphorus conditions and QE3-3 - River Basin Specific Pollutants.

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The chart shows the average Eutrophication Ratio for the entire Baltic for each year from 1900 to 2200, as well as a 5-year moving average. The eutrophication ratio is calculated by the HEAT tool. A value above 1 indicates that there is a Eutrophic status. A value below 1 indicate a good (non-eutrophic status).

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This map shows bathing water locations and their quality for the latest as well as previous bathing seasons. All symbols are coloured according to achieved quality status in the most recent season. Data are presented on two levels: country (less detailed scales) and bathing water (more detailed scales).

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The chart compares the results of the Cumulative Effect Assessment with the results of the Ecosystem Health Status (MESH+) Assessment and EU Water Framwork Directive ecological status (2016).

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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 2018. However, poor air quality remains a problem: in 2018, 34 % of citizens were exposed to O 3 and 15 % to PM 10 above EU limit values. This is mainly due to 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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Global mean near-surface temperature during the last decade (2010-2019) was 0.94 to 1.03 °C warmer than the pre-industrial level, which makes it the warmest decade on record. European land temperatures have increased even faster over the same period, by 1.7 to 1.9 °C. All UNFCC member countries have committed in the Paris Agreement to limiting the global temperature increase to well below 2 °C above the pre-industrial level and to aim to limit the increase to 1.5 °C. Without drastic cuts in global greenhouse gas emissions, even the 2 °C limit will already be exceeded before 2050.

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The treatment of urban waste water is fundamental to ensuring public health and environmental protection. Urban waste water treatment in all parts of Europe has improved over the last 30-40 years. In 2017, most European countries collected and treated sewage to tertiary level from most of their population. In EU-27 countries (EEA 2020), 69 % of the population were connected to tertiary level treatment and 13 % to secondary level treatment. Countries where less than 80 % of the population were connected to public urban waste water treatment systems were Albania, Bosnia and Herzegovina, Bulgaria, Croatia, Ireland, Italy, Lithuania, Poland, Romania, Serbia, Slovakia and Slovenia.

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The Mercury regulation (Regulation (EU) 2017/852) requires countries to report on several aspects which have been grouped in four specific obligations namely: 1) reporting on activities involving the use of mercury, 2) import restriction of mercury and mercury mixtures as waste and 3) non-waste and 4) a copy of the report that is due under article 21 of the Minamata Convention. The information reported under these obligations are presented in the dataviewer below.

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The WISE Water Framework Directive Quality Elements map contains information from the 2nd River Basin Management Plans (RBMPs) reported by EU Members States and Norway according to article 13 of the Water Framework Directive (WFD). The map shows the ecological status or potential of surface water bodies based on their quality elements status value. The following quality elements are presented: QE1 - Biological quality elements; QE1-1 - Phytoplankton; QE1-2 - Other aquatic flora QE1-2-1 - Macroalgae; QE1-2-2 - Angiosperms; QE1-2-3 - Macrophytes; QE1-2-4 - Phytobenthos; QE1-3 - Benthic invertebrates; QE1-4 - Fish; QE2 - Hydromorphological quality elements; QE2-1 - Hydrological or tidal regime; QE2-2 - River continuity conditions; QE2-3 - Morphological conditions; QE3 - Chemical and physico-chemical quality elements; QE3-1 - General parameters; QE3-1-1 - Transparency conditions; QE3-1-2 - Thermal conditions; QE3-1-3 - Oxygenation conditions; QE3-1-4 - Salinity conditions; QE3-1-5 - Acidification status; QE3-1-6 - Nutrient conditions; QE3-1-6-1 - Nitrogen conditions; QE3-1-6-2 - Phosphorus conditions and QE3-3 - River Basin Specific Pollutants.

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This map shows bathing water locations and their quality for the latest as well as previous bathing seasons. All symbols are coloured according to achieved quality status in the most recent season. Data are presented on two levels: country (less detailed scales) and bathing water (more detailed scales).

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Change of vegetation productivity during the years 2000-2016. Vegetation productivity was calculated for each 500m grid cell from a remote sensing derived vegetation index (PPI). The layer shows the changes expressed in % of 2000 calculated from the fitted line of the linear trend model.

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The map shows the biogeographical and marine Regions for EU28 countries.

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This map is a cartogram that distorts the geometry of regions to convey specific information by resizing. The bottom left box refers to the Macaronesian islands (Azores, Madeira and Canary Islands). It only includes terrestrial Natura 2000 sites for EU-28 (SPAs, SACs, SCIs and proposed SCIs).

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This map is a cartogram that distorts the geometry of regions to convey specific information by resizing. The box on the bottom left refers to the Macaronesian islands (Azores, Madeira and Canary Islands). It only includes terrestrial Natura 2000 sites for EU-28 (SPAs, SACs, SCIs and proposed SCIs).

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The chart shows the average Eutrophication Ratio for the entire Baltic for each year from 1900 to 2200, as well as a 5-year moving average. The eutrophication ratio is calculated by the HEAT tool. A value above 1 indicates that there is a Eutrophic status. A value below 1 indicate a good (non-eutrophic status).

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The chart compares the results of the Cumulative Effect Assessment with the results of the Ecosystem Health Status (MESH+) Assessment and EU Water Framwork Directive ecological status (2016).

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The Living Planet Index (LPI) is used for a number of biodiversity indicators, based on geometric averaging.

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