http://www.eea.europa.eu These are the search results for the query, showing results 1 to 15. http://www.eea.europa.eu/data-and-maps/data/member-states-reporting-art-7-under-the-european-pollutant-release-and-transfer-register-e-prtr-regulation-7?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic The European Pollutant Release and Transfer Register (E-PRTR) is a web-based register established by Regulation (EC) No 166/2006 which implements the UNECE PRTR Protocol, signed in May 2003 in Kiev. No publisher simoens EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). Copyright holder: Directorate-General for Environment (DG Environment). priority data flows geospatial data industry point data air pollution 2013-05-17T12:00:00+02:00 Data http://www.eea.europa.eu/data-and-maps/data/european-union-emissions-trading-scheme-eu-ets-data-from-citl-5?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Data about the EU emission trading system (ETS). The EU ETS data viewer provides aggregated data by country, by sector and by year on the verified emissions, allowances and surrendered units of more than 12 000 installations covered by the EU emission trading system. No publisher simoens EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). Copyright holder: Directorate-General for Environment (DG Environment). industry CITL air emissions emission trading 2013-04-12T14:04:57+02:00 Data http://www.eea.europa.eu/highlights/fewer-summer-ozone-peaks-2012?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Ozone pollution still exceeded target levels in Europe during summer 2012, but the number of exceedances of the alert threshold was lower than in any year since monitoring started in 1997. However, almost all EU Member States failed to keep levels of the pollutant within targets set to protect human health. No publisher girliar health effects air quality air pollution industry ozone traffic cities 2013-01-31T16:00:00+01:00 Highlight http://www.eea.europa.eu/data-and-maps/data/large-combustion-plants-lcp-opted-out-under-article-4-4-of-directive-2001-80-ec-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic 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). No publisher simoens EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). Copyright holder: Directorate-General for Environment (DG Environment). industry SO2 NOx combustion plant air emissions 2013-01-31T14:45:00+01:00 Data http://www.eea.europa.eu/data-and-maps/indicators/emissions-of-primary-particles-and-5/assessment-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Total emissions of primary sub-10µm particulate matter (PM 10 ) have reduced by 26% across the EEA-32 region between 1990 and 2010, driven by a 28% reduction in emissions of the fine particulate matter (PM 2.5 ) fraction. Emissions of particulates between 2.5 and 10 µm have reduced by 21% over the same period; the difference of this trend to that of PM 2.5 is due to significantly increased emissions in the 2.5 to 10 µm fraction from 'Road transport' and 'Agriculture' (of 50% and 15% respectively) since 1990. Of this reduction in PM 10 emissions, 39% has taken place in the 'Energy Production and Distribution' sector due to factors including the fuel-switching from coal to natural gas for electricity generation and improvements in the performance of pollution abatement equipment installed at industrial facilities. No publisher adamsma1 SOER2010 CSI PM10 assessment12 CSI003 industry emission air particulate matter PM2.5 air emissions human pollution 2012-12-21T14:40:23+02:00 Indicator Assessment http://www.eea.europa.eu/data-and-maps/indicators/eea32-persistent-organic-pollutant-pop-emissions-1/assessment-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic EEA-32 emissions of a number of compounds categorised as persistent organic pollutants (POPs) have decreased between 1990 and 2010, including hexachlorobenzene (HCB) by 91%, hexachlorocyclohexane (HCH) by 93%, polychlorinated biphenyls (PCBs) by 74%, dioxins & furans by 83%, and poly-aromatic hydrocarbons (PAHs) by 52%. While the majority of individual countries report that POP emissions have fallen during this period, a number report that increases in emissions of one or more pollutants have occurred. In 2010, the most significant sources of emissions for these POPs included the sectors 'Commercial, institutional and households' (11% of HCB, 37% of dioxins and furans, 18% of PCB emissions) and 'Industrial processes' (70% of HCB, 66% of HCH, 28% of PCBs). Important emission sources of PAH include residential combustion processes (open fires, coal and wood burning for heating purposes etc.), industrial metal production processes, and the road transport sector. Emissions from these sources have all declined since 1990 as a result of decreased residential use of coal, improvements in abatement technologies for metal refining and smelting, and stricter regulations on emissions from the road transport sector. Environmental context: Persistent organic pollutants (POPs) are chemical substances that persist in the environment, have potential for biomagnification through the food web, and pose a risk of causing adverse effects to human health and the environment. This group of substances includes unintentional by-products of industrial processes (such as PAHs, dioxins and furans) pesticides (such as DDT) and industrial chemicals such as polychlorinated biphenyls (PCBs). All share the property of being progressively accumulated higher up the food chain, such that bioaccumulation in lower organisms to relatively low concentrations can expose higher consumer organisms, including humans, to potentially harmful concentrations. In humans they are also of concern for human health because of their toxicity, their potential to cause cancer and their ability to cause harmful effects at low concentrations. Their relative toxic/carcinogenic potencies are compound specific, but in general the major concerns are centred on their possible role in causing cancer, neurobehavioral, immunological and reproductive disorders. More recently concern has also been expressed over their possible harmful effects on human development. No publisher adamsma1 POPs persistent organic pollutants APE006 assessment12 industry dioxin polycyclic aromatic hydrocarbons air HCB PCB chemicals air emissions furan PAH HCH pollution APE 2012-12-20T18:45:31+02:00 Indicator Assessment http://www.eea.europa.eu/data-and-maps/indicators/eea-32-non-methane-volatile-1/assessment-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic EEA-32 emissions of non-methane volatile organic compounds (NMVOCs) have decreased by 53% since 1990. In 2010, the most significant sources of NMVOC emissions were 'Solvent and product use' (42%), comprising activities such as paint application, dry-cleaning and other use of solvents, followed by 'Commercial, institutional and households' (18%). The decline in emissions since 1990 has primarily been due to reductions achieved in the road transport sector due to the introduction of vehicle catalytic converters and carbon canisters on petrol cars for evaporative emission control, driven by tighter vehicle emission standards, combined with limits on the maximum volatility of petrol that can be sold in EU Member States, as specified in fuel quality directives. The reductions in NMVOC emissions have been enhanced by the switching from petrol to diesel cars in some EU countries, and changes in the 'Solvents and product use' sector as a result of the introduction of legislative measures limiting the use and emissions of solvents. The majority of EU-27 Member States have reduced emissions since 1990 in line with their obligations under the National Emission Ceilings Directive (NECD), however two Member States have not met their ceilings (Germany and Spain) [1] . Emissions in 2010 for the three non-EU countries which have emission ceilings for 2010 set under the UNECE/CLRTAP Gothenburg protocol (Liechtenstein, Norway and Switzerland) were all well below their respective ceilings. Environmental context: Non-methane volatile organic compounds (NMVOCs) are a collection of organic compounds that differ widely in their chemical composition but display similar behaviour in the atmosphere. NMVOCs are emitted into the atmosphere from a large number of sources including combustion activities, solvent use and production processes. Biogenic NMVOC are emitted by vegetation, with amounts dependent on the species and on temperature. NMVOCs contribute to the formation of ground-level (tropospheric) ozone, and certain species such as benzene and 1,3 butadiene are directly hazardous to human health. Quantifying the emissions of total NMVOC provides an indicator of the emissions of the most hazardous NMVOCs. [1] Emissions data reported by EU member states under NECD is used for comparison with NECD ceilings, and data reported under CLRTAP is used for all other calculations unless otherwise stated. No publisher adamsma1 air quality APE004 assessment12 CSI002 industry air NMVOC air emissions human CSI pollution APE 2012-12-20T18:42:34+02:00 Indicator Assessment http://www.eea.europa.eu/data-and-maps/indicators/eea32-heavy-metal-hm-emissions-1/assessment-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Across the EEA-32 countries, emissions of lead have decreased by 89%, mercury by 63% and cadmium by 60% between 1990 and 2010. For each substance, the most significant sources in 2010 are from energy-related fuel combustion, particularly from public power and heat generating facilities, and from industrial facilities. Much progress has been made since the early 1990s in reducing point source emissions of cadmium and lead (e.g. emissions from industrial facilities). This has been achieved through improvements in, for example, abatement technologies for wastewater treatment, incinerators and in metal refining and smelting industries, and in some countries by the closure of older industrial facilities as a consequence of economic re-structuring. In the case of mercury, the observed decrease in emissions may be largely attributed to improved controls on mercury cells used in industrial processes (e.g. in the chlor-alkali process) including the replacement of old mercury cells by diaphragm or membrane cells, and the general decline of coal use across Europe as a result of fuel switching. The promotion of unleaded petrol within the EU and in other EEA member countries through a combination of fiscal and regulatory measures has been a particular success story. EU Member States have completely phased out the use of leaded petrol, a goal that was regulated by Directive 98/70/EC. From being the largest source of lead emissions in 1990, when it contributed around 75% of the EEA-32 total for lead, emissions from the road transport sector have decreased by nearly 99%. Nevertheless, the road transport sector still remains an important source of lead, contributing around 10% of total lead emissions in the EEA-32 region. However since 2002 little progress has been made in reducing emissions further; 98% of the total reduction from 1990 emissions of lead had been achieved by 2002. Environmental context: Heavy metals (such as cadmium, lead and mercury) are recognised as being toxic to biota. All are prone to biomagnification, i.e. being progressively accumulated higher up the food chain, such that bioaccumulation in lower organisms at relatively low concentrations can expose higher consumer organisms, including humans, to potentially harmful concentrations. In humans they are also of direct concern because of their toxicity, their potential to cause cancer and their potential ability to cause harmful effects at low concentrations. The relative toxic/carcinogenic potencies of heavy metals are compound specific, but exposure to heavy metals has been linked with developmental retardation, various cancers and kidney damage. Metals are persistent throughout the environment, and cadmium, lead and mercury are among those heavy metals that are already a focus of international and EU action. These substances tend not just to be confined to a given geographical region, and thus are not always open to effective local control. For example, in the case of cadmium, much is found in fine particles which do not readily dry-deposit, and therefore have long residence times in the atmosphere and are subject to long-range transport processes. No publisher adamsma1 mercury lead APE005 industry assessment12 air chemicals cadmium air emissions heavy metal pollution APE 2012-12-20T18:37:21+02:00 Indicator Assessment http://www.eea.europa.eu/data-and-maps/indicators/eea-32-nitrogen-oxides-nox-emissions-1/assessment.2010-08-19.0140149032-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic EEA-32 emissions of nitrogen oxides (NO X ) decreased by 42% between 1990 and 2010. In 2010, the most significant sources of NO X  emissions were the 'Road transport' (41%), 'Energy production and distribution' (22%) and the 'Commercial, institutional and households' and 'Energy use in industry' (both 13%) sectors. The largest reduction of emissions in absolute terms since 1990 has occurred in the road transport sector. These reductions have been achieved despite the general increase in activity within this sector since the early 1990s and have primarily been achieved as a result of fitting three-way catalysts to petrol fuelled vehicles. However, ambient urban concentrations of NO2 in EU-27 countries in recent years have not fallen by as much as reported emissions. From 2001 to 2010, NO2 annual mean concentrations at urban background sites fell by just 10.6% on average (CSI004 - Fig 5) during which time the reported NO X  emissions for the EU-27 decreased by 24.9%. The disparity between trends in NO X emissions and ambient NO2 concentration is due in part to increased penetration of diesel vehicles, and the ‘real-world’ emission performance of modern diesel vehicles not showing the improvements that were indicated by the test cycle emission factors used for emission inventories. It is also due to the increased proportion of NO X emitted directly as NO2 from the exhaust of more modern diesel vehicles which use catalyst systems for controlling emissions of other pollutants. As a result of this difference, a number of member states' NO X  emissions could be significantly higher than currently calculated. In the electricity/energy production sector reductions have also occurred as a result of measures such as the introduction of combustion modification technologies (such as use of low NO X  burners), implementation of flue-gas abatement techniques (e.g. NO X scrubbers and selective catalytic and non-catalytic reduction techniques, i.e. SCR and SNCR) and fuel-switching from coal to gas. The National Emission Ceilings Directive (NECD) specifies NO X  emission ceilings for Member States that must have been met by 2010. In general, the newer EU Member States have made substantially better progress towards meeting their respective NO X  ceilings than the older Member States of the EU-15. Eleven of the twelve post-2004 Member States had reduced their 2010 emissions beyond what is required under the NECD [1] , with the remaining one reporting NO X  emissions just 2% above the NECD target. In contrast, only four of the EU-15 Member States reported emissions for 2010 within their respective national ceilings. Of the three non-EU countries having emission ceilings set under the UNECE/CLRTAP Gothenburg protocol (Liechtenstein, Norway and Switzerland), only Switzerland reported 2010 emissions below the level of their 2010 ceiling. Environmental context: NO X  contributes to acid deposition and eutrophication of soil and water. The subsequent impacts of acid deposition can be significant, including adverse effects on aquatic ecosystems in rivers and lakes and damage to forests, crops and other vegetation. Eutrophication can lead to severe reductions in water quality with subsequent impacts including decreased biodiversity, changes in species composition and dominance, and toxicity effects. NO2 is associated with adverse effects on human health, as at high concentrations it can cause inflammation of the airways and reduced lung function, increasing susceptibility to respiratory infection. It also contributes to the formation of secondary particulate aerosols and tropospheric ozone in the atmosphere, both of which are important air pollutants due to their adverse impacts on human health and other climate effects. [1] Emissions data reported by EU member states under NECD is used for comparison with NECD ceilings, and data reported under CLRTAP is used for all other calculations unless otherwise stated. No publisher adamsma1 APE002 air quality nitrogen assessment12 CSI002 industry air NOx air emissions human CSI pollution CSI001 APE 2012-12-20T18:29:37+02:00 Indicator Assessment http://www.eea.europa.eu/highlights/households-and-industry-responsible-for?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Households and industry in the EU each cause approximately a quarter of energy-related greenhouse gas emissions, according to a new report by the European Environment Agency (EEA). The two sectors were largely responsible for the emissions increase in 2010, together leading to an additional 90 million tonnes of CO2 equivalent compared to 2009. No publisher girliar end-user greenhouse gas emission end user industry carbon dioxide 2012-12-20T11:55:00+01:00 Highlight http://www.eea.europa.eu/data-and-maps/indicators/emissions-of-acidifying-substances-version-2/assessment-3?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic 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. No publisher adamsma1 air emissions nitrogen SOx agriculture ammonia air quality CSI002 CSI001 acidification APE002 APE003 APE001 CSI assessment12 SO2 NOx NH3 SOER2010 industry air pollution APE 2012-12-13T13:52:38+02:00 Indicator Assessment http://www.eea.europa.eu/data-and-maps/data/member-states-reporting-art-7-under-the-european-pollutant-release-and-transfer-register-e-prtr-regulation-6?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic The European Pollutant Release and Transfer Register (E-PRTR) is a web-based register established by Regulation (EC) No 166/2006 which implements the UNECE PRTR Protocol, signed in May 2003 in Kiev. No publisher simoens EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). Copyright holder: Directorate-General for Environment (DG Environment). priority data flows point data industry geospatial data air pollution 2012-11-09T10:00:00+02:00 Data http://www.eea.europa.eu/data-and-maps/data/plant-by-plant-emissions-of-so2-nox-and-dust-and-energy-input-of-large-combustion-plants-covered-by-directive-2001-80-ec-1?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic 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) No publisher simoens EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). Copyright holder: Directorate-General for Environment (DG Environment). industry combustion plant SO2 NOx air emissions 2012-10-01T14:00:00+01:00 Data http://www.eea.europa.eu/data-and-maps/data/member-states-reporting-art-7-under-the-european-pollutant-release-and-transfer-register-e-prtr-regulation-5?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic The European Pollutant Release and Transfer Register (E-PRTR) is a web-based register established by Regulation (EC) No 166/2006 which implements the UNECE PRTR Protocol, signed in May 2003 in Kiev. No publisher simoens EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). Copyright holder: Directorate-General for Environment (DG Environment). point data industry geospatial data air pollution 2012-06-21T14:00:00+02:00 Data http://www.eea.europa.eu/data-and-maps/figures/water-abstractions-by-water-use?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic - No publisher poulsmo1 EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). Copyright holder: European Environment Agency (EEA). irrigation green economy industry energy 2012-06-12T14:05:01+02:00 EEAFigure