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Water exploitation index plus (WEI+) illustrates the percentage of water use versus water available in the respective subbasin.
The graph presents trend with the area of the European Union affected by water scarcity conditions between 2000-2019. Water scarcity conditions is adopted, i.e. when WEI+ values are above 20% for at least a quarter of the year in a given river sub basin; annual quarters are: Q1 (January-March), Q2 (April-June), Q3 (July-September), Q4 (October-December). No sufficient data available from Italy, hence Italian river basins have not been included in the analysis.
This figure gives an overview of the worst quarterly water scarcity conditions (maximum WEI+ in a consecutive 3-month period) of 2019 across countries in Europe. Seasonal WEI+ values are estimated as quarterly averages per country. The worst quarter of the year for water scarcity conditions is provided in brackets next to the name of the country. Annual quarters are: Q1 (January-March), Q2 (April-June), Q3 (July-September), Q4 (October-December). No data is available for Montenegro and Lichtenstein.
The figure shows EU underwater radiated noise (URN) emissions per sea basin per year.
The figure shows the potential number of oil spills each year as detected by the CleanSeaNet service.
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.
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).
This viewer presents the combined health impact of air pollution and road traffic noise at 1km x 1km resolution in cities where data is available. The impact of air pollution is measured in terms of mortality and the impact of road noise pollution is measured in terms of long-term high annoyance. The viewer is based on data submitted under the Environmental Noise Directive and the Air Quality Directive and represents the situation in 2017.
Solid coloured boxes show the ensemble mean value and coloured shading shows the inter‐model variability (from worst to best case). The mean value for the entire European coastline and values for the coasts of 10 geographical regions are shown. N-North, northern part of the North Atlantic; S-North Atlantic, southern part of the North Atlantic; RCP, representative concentration pathway; RCP4.5: medium emissions scenario; RCP8.5: high emissions scenario
This maps show the estimated multiplication factor, by which the frequency of flooding events of a given height changes between 2010 and 2100 due to projected regional sea relative level rise under the RCP2.6 and RCP8.5 scenarios. Values larger than 1 indicate an increase in flooding frequency. Adapted from Figure 4.12 of the Intergovernmental Panel on Climate Change (IPCC) Special Report on the Ocean and Cryosphere (SROCC).
This table presents the definition of six management steps (site status) which characterise the management status of contaminated sites.
This table presents explanations of terms used to understand the management of contaminated sites.
The figure presents the trend in the number of registered potentially contaminated sites in 2006, 2011 and 2016.
The figure shows the number of Member States that are below their reduction commitments and the aggregated groups with number of Member States that are above.
The figure shows the spatial variation in nitrogen (N) surplus (left map) and phosporus (P) surplus (right map) for all agricultural land in the EU-27 in 2010 (excluding the United Kingdom and Croatia). The surplus for N is calculated as the sum of N inputs to land (fertiliser, manure and biosolids, atmospheric N deposition, biological fixation and net mineralisation) minus crop removal (offtake). The surplus for P is calculdated as the sum of P inputs to land (fertiliser, manure and biosolids, atmospheric P deposition) minus crop removal (offtake). In the two maps, regions with higher N and P surpluses are coloured in shades of orange and red (with red colours representing N surpluses over 150 kg/ha/yr and P surpluses of 12 kg/ha/yr, respectively). Regions with lower N and P surpluses are shown in shades of green. N surpluses occur in nearly all regions, and are highest in areas with high livestock densities such as the Netherlands, Belgium, Brittany in France and the Po valley region in Italy. Because P is adsorbed by the soil, P surpluses can be negative in areas where crop uptake exceeds P input and P inputs are completely eliminated (so-called P mining), such as in parts of France, Germany, Czechia, Slovakia and Hungary. The maps and the supporting information are adapted from De Vries, W., Romkens, P., Kros, H., Voogd, J.C.H., Schulte-Uebbing, L., 2022, Impacts of nutrients and heavy metals in European agriculture. Current and critical inputs in relation to air, soil and water quality, ETC-DI Report 2022/01, European Environment Agency.
Figure shows indexed values of waste generation per capita and gross domestic product (GDP) with year 2010 as a reference year (2010=100%). Production phase shows generation of total waste and waste excluding major mineral wastes. GDP was chosen as a basic indicator of the economic growth as it expresses the total value of goods and services produced in the country (the components of GDP include personal consumption expenditures plus business investment plus government spending plus (exports minus imports)).
The figure shows how many times the planetary boundaries are exceeded for various impacts due to EU consumption patterns.
Emissions reported to European Pollutant Release and Transfer Register (E-PRTR) of 3 pollutants (CO2, NH3, CH4), and number of reporting facilities. Emissions from 2010-2020, indexed to 2010. Activity covered: 5d in annex I of the E-PRTR Regulation (‘Landfills (excluding landfills of inert waste and landfills which were closed before 16.7.2001 or for which the after-care phase required by the competent authorities according to Article 13 of the Landfill Directive); receiving 10 tonnes per day or with a total capacity of 25 000 tonnes’).
Emissions reported to the European Pollutant Release and Transfer Register (E-PRTR) of 3 pollutants (NOX, PAH, dioxins and furans), and number of reporting facilities. Emissions from 2010-2020, indexed to 2010 (except PAH indexed to 2009). Activity covered: 5b in Annex I of the E-PRTR Regulation (‘Installations for the incineration of non-hazardous waste in the scope of the Industrial Emissions Directive; with a capacity of 3 tonnes per hour').
For references, please go to https://www.eea.europa.eu/data-and-maps/find/global or scan the QR code.
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