Data and maps

Air pollution country fact sheet 2020

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Air pollution country fact sheet 2020

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The map shows mean orthophosphate concentrations in the upper 10 m of the water column, observed in winter of the years 2013-2017.

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The map shows total phosphorus concentrations in the upper 10 m of the water column, observed in the years 2013-2017.

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The map reflects the most recent available information at the EU-level on implementation of the Urban Waste Water Treatment Directive (UWWTD) in EU 28 plus Iceland based on data reported by the Member States (for reference year 2018) in 2020.

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Urban Waste Water Treatment Directive concerns the collection, treatment and discharge of urban waste water and the treatment and discharge of waste water from certain industrial sectors. The objective of the Directive is to protect the environment from the adverse effects of the above mentioned waste water discharges.

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The EU is not on track to reduce the greenhouse gas emission intensity of fuels sold for road transport to 6 % below 2010 levels, as set out in its 2020 target. Between 2010 and 2018, the emission intensity decreased by 3.7 %, mostly due to the increased use of biofuels. Finland and Sweden are the only Member States whose emission intensities decreased by more than 6 %. If the indirect land use change effects of biofuel production are considered, the emission intensity of fuels sold in the EU actually increased between 2017 and 2018, because of the increased use of oil crops as feedstocks.

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• ILUC, indirect land use change. • The reduction target applies to values that exclude ILUC emissions only.

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• Average EU values (including and excluding indirect land-use change from biofuels production) calculated on the basis of 22 Member States submissions for 2017 (all except Estonia, Lithuania, Poland, Portugal, Romania and Spain) and 28 submissions for 2018. • gCO2eq/MJ, grams of CO2 equivalents per megajoule of energy produced; GHG, greenhouse gas.

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Ground-level ozone adversely affects not only human health but also vegetation and ecosystems across Europe, leading to decreased crop yields and forest growth, and loss of biodiversity. Much of Europe’s lands are exposed to ozone levels above the threshold and long-term objective values set in the EU’s Ambient Air Quality Directive (AAQD) for the protection of vegetation. For instance, after a 6-year period (2009-2014) of relatively low ozone values, the fraction of arable land exposed to levels above the AAQD threshold increased to 30 % in 2015, falling to 19 % in 2016, before increasing again to 26 % in 2017 and 45 % in 2018.  

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This database contains a number of climate change mitigation policies and measures (PaM) implemented or planned by European countries to reduce greenhouse gas emissions. Most of these PaMs have been reported to the European Commission, the United Framework Convention on Climate Change (UNFCCC) or the EEA.

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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 EU is not on track to reduce the greenhouse gas emission intensity of fuels sold for road transport to 6 % below 2010 levels, as set out in its 2020 target. Between 2010 and 2018, the emission intensity decreased by 3.7 %, mostly due to the increased use of biofuels. Finland and Sweden are the only Member States whose emission intensities decreased by more than 6 %. If the indirect land use change effects of biofuel production are considered, the emission intensity of fuels sold in the EU actually increased between 2017 and 2018, because of the increased use of oil crops as feedstocks.

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Ground-level ozone adversely affects not only human health but also vegetation and ecosystems across Europe, leading to decreased crop yields and forest growth, and loss of biodiversity. Much of Europe’s lands are exposed to ozone levels above the threshold and long-term objective values set in the EU’s Ambient Air Quality Directive (AAQD) for the protection of vegetation. For instance, after a 6-year period (2009-2014) of relatively low ozone values, the fraction of arable land exposed to levels above the AAQD threshold increased to 30 % in 2015, falling to 19 % in 2016, before increasing again to 26 % in 2017 and 45 % in 2018.  

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Monitoring  vegetation response to water deficit due to droughts is necessary to be able to introduce effective measures to increase the resilience of ecosystems in line with the EU’s nature restoration plan — a key element of the EU biodiversity strategy for 2030. Between 2000 and 2016, Europe was affected by severe droughts, causing average yearly vegetation productivity losses covering around 121 000 km 2 . This was particularly notable in 2003, when drought affected most parts of Europe, covering an estimated 330 000 km 2  of forests, non-irrigated arable land and pastures. Drought impact was also relatively severe in 2005 and 2012.

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Air pollution country fact sheet 2020

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Air pollution country fact sheet 2020

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Air pollution country fact sheet 2020

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The map reflects the most recent available information at the EU-level on implementation of the Urban Waste Water Treatment Directive (UWWTD) in EU 28 plus Iceland based on data reported by the Member States (for reference year 2018) in 2020.

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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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The map shows mean orthophosphate concentrations in the upper 10 m of the water column, observed in winter of the years 2013-2017.

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The map shows total phosphorus concentrations in the upper 10 m of the water column, observed in the years 2013-2017.

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The map shows dissolved dissolved inorganic nitrogen (DIN) (NH4 + NO3 + NO2) concentrations in the upper 10 m of the water column, observed in winter of the years 2013-2017.

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• Average EU values (including and excluding indirect land-use change from biofuels production) calculated on the basis of 22 Member States submissions for 2017 (all except Estonia, Lithuania, Poland, Portugal, Romania and Spain) and 28 submissions for 2018. • gCO2eq/MJ, grams of CO2 equivalents per megajoule of energy produced; GHG, greenhouse gas.

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• ILUC, indirect land use change. • The reduction target applies to values that exclude ILUC emissions only.

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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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