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Indicator Assessment Emissions of ozone precursors (CSI 002/APE 008) - Assessment published Dec 2012
Emissions of the main ground-level ozone precursor pollutants have decreased across the EEA-32 region between 1990 and 2010; nitrogen oxides (NO X ) by 42%, non-methane volatile organic compounds (NMVOC) by 53%, carbon monoxide (CO) by 61%, and methane (CH 4 ) by 32%. This decrease has been achieved mainly as a result of the introduction of catalytic converters for vehicles, which has significantly reduced emissions of NO X and CO from the road transport sector, the main source of ozone precursor emissions. The EU-27 as a whole has not met 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 NEC Directive (NECD). Whilst total NMVOC emissions in the EU-27 were below the NECD limit in 2010, a number of individual Member States did not meet their ceilings for one or both 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 reported NMVOC emissions in 2010 that were lower than their respective ceilings, however Liechtenstein and Norway reported NO X emissions higher than their ceiling for 2010.
Located in Data and maps Indicators Emissions of ozone precursors
Indicator Assessment Emissions of acidifying substances (CSI 001/APE 007) - Assessment published Dec 2012
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 2010. Emissions of SO X have decreased by 75%, NO X by 42% and NH 3 emissions by 28% since 1990 within the EEA-32. Data reported under the NECD indicates that the EU-27 as a whole has met its overall target to reduce emissions of SO X and NH 3 as specified by the EU’s National Emissions Ceiling Directive (NECD). However twelve individual Member States, and the EU as a whole, reported emissions in the 2010 above their NECD 2010 emission ceilings for NO X , although the twelve Member States joining the EU in 2004/7 reported combined emissions below their collective NECD ceiling. Three EU-27 member states also reported 2010 NH 3 emissions above the levels of their NECD ceilings, neither of which are in the group of twelve new EU member states. 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 2010 that were substantially higher than their respective 2010 ceilings. Liechtenstein also reported 2010 NH 3 emissions above the level of their Gothenburg protocol 2010 ceiling.
Located in Data and maps Indicators Emissions of acidifying substances
Indicator Assessment Production and consumption of ozone depleting substances (CSI 006) - Assessment published Dec 2012
The total production and consumption of ozone depleting substances in EEA member countries has decreased significantly since the Montreal Protocol was signed in 1987 -  nowadays it is practically zero. Globally, the implementation of the Montreal Protocol has led to a decrease in the atmospheric burden of ozone-depleting substances (ODSs) in the lower atmosphere and in the stratosphere. Many of the ODS are also potent greenhouse gases in their own right, but as they are governed through the Montreal Protocol, they are not separately regulated under the UN Framework Convention on Climate Change (UNFCCC). Thus the phasing out of ODS under the Montreal Protocol has also avoided global greenhouse gas emissions. In 2010, it has been estimated that the reduction of greenhouse gas emissions  achieved under the Montreal Protocol was 5 to 6 times larger than that which will result from the UNFCCC's Kyoto Protocol first commitment period, 2008-2012.
Located in Data and maps Indicators Production and consumption of ozone depleting substances
Figure Water scarcity and drought events in Europe during the last decade
The map shows the main drought events in Europe in 2002 - 2011
Located in Data and maps Maps and graphs
Figure BOD5 concentrations in rivers between 1992 and 2010 draining to different sea regions of Europe
The sea region data series are calculated as the average of annual mean data from river monitoring stations in each sea region. The data thus represents rivers or river basins draining into that particular sea. Only complete series after inter/extrapolation are included (see indicator specification). The number of river monitoring stations included per sea region is given in parentheses. There were no stations with consistent data series on BOD7 in rivers draining to the Arctic Ocean. BOD7 data has been recalculated into BOD5 data.
Located in Data and maps Maps and graphs
Figure Phosphorus concentrations in rivers (orthophosphate) between 1992 and 2010 in different sea regions of Europe
The sea region data series are calculated as the average of annual mean data from river monitoring stations in each sea region. The data thus represents rivers or river basins draining into that particular sea. Only complete series after inter/extrapolation are included (see indicator specification). The number of river monitoring stations per sea region is given in parentheses.
Located in Data and maps Maps and graphs
Figure Phosphorus concentrations in lakes (total phosphorus) between 1992 and 2010 in different geographical regions of Europe.
The data series per region are calculated as the average of the annual mean for river monitoring stations in the region. Only complete series after inter/extrapolation are included (see indicator specification). There were no stations with complete series after inter/extrapolation in the South and Southeast regions. The number of lake monitoring stations included per geographical region is given in parentheses
Located in Data and maps Maps and graphs
Figure object code Percentage of ecosystem area at risk of acidification for EEA Member Countries and EEA Cooperating Countries in 2010 for a current legislation (CLE) scenario
The results were computed using the 2008 Critical Loads database. Deposition data was made available by the LRTAP Convention EMEP Centre for Integrated Assessment Modelling (CIAM) at the International Institute for Applied Systems Analysis (IIASA) in autumn 2007.
Located in Data and maps Maps and graphs
Indicator Assessment Exposure of ecosystems to acidification, eutrophication and ozone (CSI 005) - Assessment published Nov 2012
Eutrophication The magnitude of the risk of ecosystem eutrophication and its geographical coverage has diminished only slightly over the years. The predictions for 2010 and 2020 indicate that the risk is still widespread over Europe. This is in conflict with the EU's long-term objective of not exceeding critical loads of airborne acidifying and eutrophying substances in sensitive ecosystem areas (National Emission Ceilings Directive, 6th Environmental Action Programme, Thematic Strategy on Air Pollution). Acidification The situation has considerably improved and it is predicted to improve further. The interim environmental objective for 2010 (National Emission Ceilings Directive) will most likely not be met completely. However, the European ecosystem areas where the critical load will be exceeded is predicted to have declined by more than 80 % in 2010 with 1990 as a base year. By 2020, it is expected that the risk of ecosystem acidification will only be an issue at some hot spots, in particular at the border area between the Netherlands and Germany. Ozone (O 3 ) Most vegetation and agricultural crops are exposed to ozone levels exceeding the long term objective given in the EU Air Quality Directive. A significant fraction is also exposed to levels above the 2010 target value defined in the Directive. Concentrations in 2009 were on the average lower than in 2008. The effect-related accumulated concentrations, addressing exposure of crops to ozone over several summer months, shows large year-to-year variations. Over the period 1996-2009 there is a tendency to increased exposure, although this development has not proven to be statistically significant.  
Located in Data and maps Indicators Exposure of ecosystems to acidification, eutrophication and ozone
Indicator Assessment Greenhouse gas emission trends (CSI 010/CLIM 050) - Assessment published Oct 2012
In 2010, EU-27 greenhouse gas emissions increased by 2.4 % compared to 2009. This was due to the return to economic growth in many countries and a colder winter leading to an increased demand for heating. However, the increase in emissions was contained by a move from coal to natural gas and the sustained strong growth in renewable energy generation. This increase noted in 2010 follows a 7 % drop in 2009 (compared to 2008), largely due to the economic recession and, again, the increased production of renewable energy.  With respect to 1990 levels, EU‑27 emissions were decreased by 15.4 % (Figure 1).  At a sectoral level, emissions decreased in all main sectors except the transport one, where they increased considerably. In the EU-15, 2010 GHG emissions increased by 2.1 % compared to 2009 – an increase of 78.5 Mt CO 2 eq in absolute values. This implies that EU‑15 greenhouse gas emissions were approximately 10.6 % below the 1990 level in 2010 or 11 % below the base-year level. CO 2  emissions from public electricity and heat production also decreased by 6.1% with respect to 1990. The European Union remains well on track to achieve its Kyoto Protocol target (an 8% reduction of its greenhouse gas emissions compared to base-year level, to be achieved during the period from 2008 to 2012). A detailed assessment of progress towards Kyoto targets and 2020 targets in Europe is provided in EEA's 2012 report on Greenhouse gas emission trends and projections .
Located in Data and maps Indicators Greenhouse gas emission trends
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