Data Visualization
23 Mar 2023
Data Visualization
23 Mar 2023
The black line indicates changes in the total circular material use rate for the EU over time, while the coloured lines show changes in the circular material use rates for the various material groups.
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.
The combo charts show the number of new introductions of non-indigenous species (NIS) (dots with trendline, primary axis) and the cumulative number of NIS by main species group (stacked columns, secondary axis) reported in Europe’s marine subregions, per 6-year interval between 1970 and 2017.
The figure shows the number of new non-indigenous species (NIS) reported by marine region. The line-bar chart shows the total number of new introductions of NIS (grey bars) and by main species group (lines) reported in Europe’s seas combined and by marine region, per 6-year interval between 1970 and 2017. The stacked column charts show the cumulative number of new NIS introductions by main species group, in Europe’s seas combined and by marine region, per 6-year interval between 1970 and 2020.
This dataset contains the list of all-know and verified records of non-indigenous species (NIS) in Europe’s seas, last updated in October 2022, and used to produce the EEA marine indicator on "Marine non-indigenous species in Europe's seas" (MAR002).
MSFD D2: "Marine Strategy Framework Directive Descriptor 2"
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.
GIS Map Application
03 Jun 2022
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.
GIS Map Application
18 Nov 2021
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.
Indicator Assessment
27 Oct 2021
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.
Indicator Assessment
26 Oct 2021
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.