Data and maps

The global average concentrations of various greenhouse gases in the atmosphere have reached the highest levels ever recorded, and concentrations continue to increase. The combustion of fossil fuels from human activities and land-use changes are largely responsible for this increase. The concentration of all GHGs, including cooling aerosols that are relevant in the context of the 2 o C temperature target, reached a value of 399 ppm CO 2 equivalents in 2009.  The concentration in 2009 of the six greenhouse gases (GHG) included in the Kyoto Protocol has reached 439 ppm CO 2  equivalent,  an increase of 160 ppm (around +58%) compared to pre-industrial levels.  The concentration of CO 2 , the most important greenhouse gas, reached a level of 386 ppm by 2009, and further increased to 389 ppm in 2010. This is an increase of approximately 110 ppm (around +39%) compared to pre-industrial levels.  

Read more

Emissions of the acidifying pollutants (nitrogen oxides (NO X ), sulphur oxides (SO X ) and ammonia (NH 3 ) have decreased significantly in most of the individual EEA member countries between 1990 and 2009. Emissions of SO X have decreased by 76%, NO X by 41% and NH 3 emissions by 26% since 1990. The EU-27 is on track to meet its overall target to reduce emissions of SO X and NH 3 as specified by the EU’s National Emissions Ceiling Directive (NECD). However a number of individual Member States, and the EU as a whole, anticipates missing their NECD 2010 emission ceilings for NO X . Of the three non-EU countries having emission ceilings for 2010 under the UNECE/CLRTAP Gothenburg protocol (Liechtenstein, Norway and Switzerland), both Liechtenstein and Norway reported NO X emissions in 2009 that were substantially higher than their respective 2010 ceilings.

Read more

Emissions of the main ground-level ozone precursor pollutants have decreased across the EEA-32 region between 1990 and 2009; nitrogen oxides (NO X ) by 41%, non-methane volatile organic compounds (NMVOCs) by 51%, carbon monoxide (CO) by 61%, and methane (CH 4 ) by 27%. This decrease has been achieved mainly as a result of the introduction of catalytic converters for vehicles. These changes have significantly reduced emissions of NO X and CO from the road transport sector, the main source of ozone precursor emissions. The EU-27 is still some way from meeting its 2010 target to reduce emissions of NO X , one of the two ozone precursors (NO X and NMVOC) for which emission limits exist under the EU’s National Emissions Ceiling Directive (NECD). Whilst total NMVOC emissions in the EU-27 were below the NECD limit in 2009, a number of individual Member States anticipate missing their ceilings for one or either of these two pollutants. Of the three non-EU countries having emission ceilings for 2010 set under the UNECE/CLRTAP Gothenburg protocol (Liechtenstein, Norway and Switzerland), all three countries reported NMVOC emissions in 2009 that were lower than their respective 2010 ceilings. However both Liechtenstein and Norway reported NO X emissions in 2009 that were substantially higher than their respective 2010 ceilings.

Read more

AirBase is the air quality information system maintained by the EEA through the European topic centre on Air and Climate Change. It contains air quality data delivered annually under 97/101/EC Council Decision establishing a reciprocal exchange of information and data from networks and individual stations measuring ambient air pollution within the Member States (EoI Decision).

Read more

The Directive on the limitation of emissions of certain pollutants into the air from large combustion plants (LCP Directive, 2001/80/EC) applies to combustion plants with a rated thermal input equal to or greater than 50 MW, irrespective of the type of fuel used (solid, liquid or gaseous).

Read more

The Regulation (EC) No 443/2009 requires Member States to record information for each new passenger car registered in its territory. Every year, each Member State shall submit to the Commission all the information related to their new registration. In particular, the following details are required for each new passenger car registered: manufacturer name, type, variant, version, make and commercial name, specific emissions of CO2, mass in running order, wheel base and track width. Additional information, such as fuel type, fuel mode and engine capacity were also submitted.

Read more

The maps illustrate Corine Land Cover 1990 for each country for all 44 classes

Read more

The maps illustrate Corine Land Cover 2000 for each country for all 44 classes.

Read more

False-color view of total ozone over the Antarctic pole. The purple and blue colors are where there is the least ozone, and the yellows and reds are where there is more ozone. Measured by October 1.

Read more

For the transport sector, the ODEX (Energy Efficiency) is calculated out at the level of 8 modes or vehicle types: cars, trucks, light vehicles, motorcycles, buses, total air transport, rail, and water transport. The overall energy efficiency index aggregates the trends for each transport mode in a single indicator for the whole sector.

Read more

The figure shows the energy efficiency progress in transport as ODEX index

Read more

Summary of radiative forcing of different GHGs. The values represent the forcings in 2005 relative to the start of the industrial era (about 1750).

Read more

What is on this Floods Directive map? River Basin Districts (RBDs) are the main units for the management of river basins and have been delineated by Member States under Article 3 of the Water Framework Directive (WFD). For the Floods Directive, Member States were given the choice to use either the WFD River Basin Districts, or to designate other Units of Management (UoM) for specific river basins or stretches of coastal areas under article 3 of that Directive. For Ireland and Italy such smaller UoM were designated. For the other EU Member States the same RBD as for the WFD therefore applies. The geographic area of some RBDs span more than one country (such as the Danube) and these are known as International RBDs. These RBDs are shown in yellow/orange. Others are contained completely within a country and are known as National RBDs, and are shown in light purple/light blue.

Read more

WFD River Basin District Information viewer

Read more

WFD ground water viewer

Read more