Data and maps

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The dataset consists of a collection of annual soil moisture (SM) anomalies during the vegetation growing season (GS) for the years 2000-2019 across EEA 38 area and the United Kingdom. The vegetation growing season is defined by EEA´s phenology data series "Vegetation growing season length 2000-2016" [https://www.eea.europa.eu/data-and-maps/data/annual-above-ground-vegetation-season]. The anomalies are calculated based on the European Commission's Joint Research Centre European Drought Observatory (EDO) Soil Moisture Index (SMI) with respect to the 1995–2019 base period. The yearly start and end of GS periods are dynamic and calculated according to the EEA Phenology Indicators. A positive anomaly indicates that the observed SM was wetter than the long-term SM average for the base period, while a negative anomaly indicates that the observed SM was drier than the reference value. Because SM anomalies are measured in units of standard deviation from the long-term SMI average, they can be used to compare annual deficits/surplus of SM between geographic regions. EDO is one of the early warning and monitoring systems of the Copernicus Emergency Management Service. As the dataset builds on EDO's SMI, it therefore contains modified Copernicus Emergency Management Service information (2019).

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This dashboard presents country profiles containing key data on greenhouse gas (GHG) emissions, renewable energy and energy efficiency for each EU Member State. These country profiles support and complement the assessment of progress towards climate and energy targets in Europe.

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This viewer outlines progress in the use of renewable energy sources in the EU and at country level, as well as per energy market sector and technology

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Between 1980 and 2019, climate-related extremes caused economic losses totaling an estimated EUR 446 billion in the EEA member countries. Although analysing trends in economic losses is difficult, partly as a result of high variability from year to year, climate-related extremes are becoming more common and, without mitigating action, could result in even greater losses in the coming years. The EU adaptation strategy aims to build resilience and ensure that Europe is well prepared to manage the risks and adapt to the impacts of climate change, thus minimising economic losses and other harms.

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Greenhouse gas emissions from the EU’s transport increased in 2018 and 2019 and have not followed the EU’s general decreasing emissions trend. National projections compiled by the EEA suggest that transport emissions in 2030 will remain above 1990 levels, even with measures currently planned in Member States. Further action is needed particularly in road transport, the highest contributor to transport emissions, as well as aviation and shipping, where transport demand is driving emissions upward in both absolute and relative terms.

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Figure shows percentage consumption in ozone-depleting potential (ODP) tonnes from 1986 to 2019 relative to ozone-depleting substance (ODS) consumption in ODP tonnes in 1986.

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The ozone hole is a region of exceptionally depleted ozone in the stratosphere over the Antarctic. All figures are in million square kilometres.

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Impacts of extreme weather and climate related events in the EEA member countries and the UK.

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This dataset contains the location and administrative data for the largest industrial complexes in Europe, releases and transfers of regulated substances to all media, waste transfers as well as more detailed data on energy input and emissions for large combustion plants. These data are reported to EEA under Industrial Emissions Directive (IED) 2010/75/EU Commission Implementing Decision 2018/1135 and the European Pollutant Release and Transfer Register (E-PRTR) Regulation (EC) No 166/2006 Commission Implementing Decision 2019/1741. The dataset brings together data formerly reported separately under E-PRTR Regulation Art.7 and under IED Art.72. Additional reporting requirements under the IED are also included.

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The arrows show the trend in relative sea level at selected European tide gauge stations since 1970 (in mm/year) based on data from the Permanent Service for Mean Sea Level (PSMSL). The background colours show projections of European sea level change for 2081–2100 for RCP8.5 (in metres). Results are median values based on the values in the IPCC SROCC Table 4.4.

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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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New technology and tools are opening up new possibilities for environmental monitoring and analysis. For example, citizen science, satellite observations, big data and artificial intelligence present opportunities for improving the timeliness, comparability, granularity and integration of data.

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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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New technology and tools are opening up new possibilities for environmental monitoring and analysis. For example, citizen science, satellite observations, big data and artificial intelligence present opportunities for improving the timeliness, comparability, granularity and integration of data.

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Noise pollution is a growing environmental concern. Noise disturbs sleep and makes it harder to learn in school. It can also cause or aggravate many health problems. The most important source of environmental noise in Europe is road traffic.

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Between 1980 and 2019, climate-related extremes caused economic losses totaling an estimated EUR 446 billion in the EEA member countries. Although analysing trends in economic losses is difficult, partly as a result of high variability from year to year, climate-related extremes are becoming more common and, without mitigating action, could result in even greater losses in the coming years. The EU adaptation strategy aims to build resilience and ensure that Europe is well prepared to manage the risks and adapt to the impacts of climate change, thus minimising economic losses and other harms.

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Greenhouse gas emissions from the EU’s transport increased in 2018 and 2019 and have not followed the EU’s general decreasing emissions trend. National projections compiled by the EEA suggest that transport emissions in 2030 will remain above 1990 levels, even with measures currently planned in Member States. Further action is needed particularly in road transport, the highest contributor to transport emissions, as well as aviation and shipping, where transport demand is driving emissions upward in both absolute and relative terms.

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Between 1986 and 2002, the consumption of ozone-depleting substances declined significantly, falling from 343 000 ozone-depleting potential tonnes to around zero in the 28 EU Member States. This was driven by the implementation of the 1987 Montreal Protocol. Since the early 1990s, the EU has taken additional measures — set out in the EU regulation — to limit ozone-depleting substances, and has exceeded its commitments under the Montreal Protocol. Although some progress has been made towards reversing the depletion of the ozone hole, more must be done to ensure that recovery continues.

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This dashboard presents country profiles containing key data on greenhouse gas (GHG) emissions, renewable energy and energy efficiency for each EU Member State. These country profiles support and complement the assessment of progress towards climate and energy targets in Europe.

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This viewer outlines progress in the use of renewable energy sources in the EU and at country level, as well as per energy market sector and technology

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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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Impacts of extreme weather and climate related events in the EEA member countries and the UK.

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The arrows show the trend in relative sea level at selected European tide gauge stations since 1970 (in mm/year) based on data from the Permanent Service for Mean Sea Level (PSMSL). The background colours show projections of European sea level change for 2081–2100 for RCP8.5 (in metres). Results are median values based on the values in the IPCC SROCC Table 4.4.

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Country boundaries and transboundary river basins

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The ozone hole is a region of exceptionally depleted ozone in the stratosphere over the Antarctic. All figures are in million square kilometres.

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Figure shows percentage consumption in ozone-depleting potential (ODP) tonnes from 1986 to 2019 relative to ozone-depleting substance (ODS) consumption in ODP tonnes in 1986.

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The chart shows the change in energy consumption of EU Member States in 2019 compared to 2005, and their 2020 targets.

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