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Annual European Union greenhouse gas inventory 1990–2009 and inventory report 2011: This report is the annual submission of the greenhouse gas inventory of the European Union to the United Nations Framework Convention on Climate Change and the Kyoto Protocol. It presents greenhouse gas emissions between 1990 and 2009 for EU-27, EU-15, individual Member States and economic sector.
Located in Publications
Environment, health and quality of life — SOER synthesis chapter 5: Located in The European environment – state and outlook 2010 › Synthesis › The European environment – state and outlook 2010: Synthesis
Production of chemicals: The bar graphic compares current (2005) and projected (2015 and 2030) chemicals production for 3 world regions in USD. The map precise the regions considered: OECD countries (darker blue), BRIICS countries (red), and rest of the world (pale blue).
Located in Data and maps › Maps and graphs
Persistent organic pollutant (POP) emissions (APE 006) - Assessment published Oct 2010: EEA-32 emissions of a number of compounds categorised as persistent organic pollutants (POPs), have decreased between 1990 and 2008 - hexachlorobenzene (HCB, by -89%), hexachlorocyclohexane (HCH, by -86%), polychlorinated biphenyls (PCBs, by -76%), dioxins & furans (by 81%) and poly-aromatic hydrocarbons (PAHs, by -60%). While the majority of individual countries report POP emissions have fallen during this period, a number do report that increased emissions have occurred. In 2008, the most significant sources of emissions for these POPs included the 'Commercial, institutional and households' (53% of PAHs, 30% of dioxins & furans, 23% of PCBs) and 'Industrial Processes' (99% of HCB, 74% of HCH, 37% of PCBs) sectors. 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 to bioaccumulate 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 chronic exposure of lower organisms to much lower concentrations can expose predatory organisms, including humans and wildlife, 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. POPs have also been shown to possess a number of toxicological properties. The major concern is often centred on their possible role in carcinogenic, immunological and reproductive effects but more recently concern has also been expressed over their possible harmful effects on human development.
Located in Data and maps › Indicators › Persistent organic pollutant (POP) emissions
Heavy metal (HM) emissions (APE 005) - Assessment published Oct 2010: Across the EEA-32 countries, emissions of lead have decreased by 90%, mercury by 61% and lead by cadmium by 58% between 1990 and 2008. For each substance, the most significant sources in 2008 are from energy-related sources associated with fuel combustion, particularly from public power and heat generating facilities and in 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 for example 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 in 1990 when it contributed around 75% of total emissions, emissions from the road transport sector decreased since then by nearly 99%. Nevertheless, the road transport sector still remains an important source of lead, contributing around 8% of total lead emission in the EEA-32 region. However since 2002 little progress has been made in reducing emissions further; total emissions of lead have remained largely constant. Environmental context: Heavy metals (such as cadmium, lead and mercury) are recognised as being toxic to biota. All have the quality of being progressively accumulated higher up the food chain, such that chronic exposure of lower organisms to much lower concentrations can expose predatory 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. Specifically, 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, rather having long residence times in the atmosphere and hence are subject to long-range transport processes.
Located in Data and maps › Indicators › Heavy metal (HM) emissions
EEA32 Persistent organic pollutant (POP) emissions (APE 006) - Assessment published Feb 2010: EEA-32 emissions of polycyclic aromatic hydrocarbons (PAHs), an important group of chemicals categorised as persistent organic pollutants (POPs), have decreased by 63% between 1990 and 2007. While the majority of individual countries report PAH emissions have fallen during this period, eight countries report increased emissions have occurred. 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. In 2007, the most significant source of PAHs was the 'other energy' sector accounting for 41% of total PAH emissions. This sector comprises emissions caused by fuel combustion mainly from the residential, commercial and institutional buildings sectors. Environmental context: Persistent organic pollutants (POPs) are chemical substances that persist in the environment, have potential to bioaccumulate 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 chronic exposure of lower organisms to much lower concentrations can expose predatory organisms, including humans and wildlife, 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. POPs have also been shown to possess a number of toxicological properties. The major concern is often centred on their possible role in carcinogenic, immunological and reproductive effects but more recently concern has also been expressed over their possible harmful effects on human development.
Located in Data and maps › Indicators › EEA32 Persistent organic pollutant (POP) emissions
EEA32 Heavy metal (HM) emissions (APE 005) - Assessment published Feb 2010: Across the EEA-32 countries, emissions of lead have decreased by 88%, mercury by 57% and lead by cadmium by 56% between 1990 and 2007. For each substance, the most significant sources in 2007 are from energy-related sources associated with fuel combustion, particularly from public power and heat generating facilities and in 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 for example 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 in 1990 when it contributed more than 70% of total emissions, emissions from the road transport sector decreased since then by more than 95%. Nevertheless, the road transport sector still remains an important source of lead, contributing around 25% of total lead emission in the EEA-32 region. However over the last 5 year period little progress has been made in reducing emissions further; total emissions of lead have remained largely constant. Environmental context: Heavy metals (such as cadmium, lead and mercury) are recognised as being toxic to biota. All have the quality of being progressively accumulated higher up the food chain, such that chronic exposure of lower organisms to much lower concentrations can expose predatory 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. Specifically, 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, rather having long residence times in the atmosphere and hence are subject to long-range transport processes.
Located in Data and maps › Indicators › EEA32 Heavy metal (HM) emissions
50 years of protecting Europe's environment: Today the European Union has the most environmentally friendly arsenal of rules in the world and has done more to tackle pressing ecological problems, such as climate change, than any other major power. But it has not always been like this. Caring for the environment did not feature in the Treaty of Rome, the document that gave birth to the modern day EU. Yet environmental problems were never far away. Europe’s love affair with the car was moving into top gear, industry was busy belching out pollutants and raw sewage was being pumped into our rivers and seas.
Located in Environmental topics › Policy instruments › Multimedia
Controlling chemicals - Protecting human health and the environment: Chemicals are a fact of modern life: almost all the products we use on a daily basis are either made from them or contain them. But without proper controls, they can be dangerous. Unsurprisingly, Europe’s lawmakers have always taken an extremely serious approach towards policies surrounding chemicals. As a result, EU citizens benefit from some of the toughest chemicals safety laws in the world.
Located in Environmental topics › Chemicals › Multimedia
Progress in management of contaminated sites (CSI 015) - Assessment published Aug 2007: Soil contamination requiring clean up is present at approximately 250000 sites in the EEA member countries, according to recent estimates. And this number is expected to grow. Potentially polluting activities are estimated to have occurred at nearly 3 million sites (including the 250000 sites already mentioned) and investigation is needed to establish whether remediation is required. If current investigation trends continue, the number of sites needing remediation will increase by 50% by 2025. By contrast, more than 80000 sites have been cleaned up in the last 30 years in the countries where data on remediation is available. Although the range of polluting activities (and their relative importance as localised sources of soil contamination) may vary considerably across Europe, industrial and commercial activities as well as the treatment and disposal of waste are reported to be the most important sources. National reports indicate that heavy metals and mineral oil are the most frequent soil contaminants at investigated sites, while mineral oil and chlorinated hydrocarbons are the most frequent contaminants found in groundwater. A considerable share of remediation expenditure, about 35% on average, comes from public budgets. Although considerable efforts have been made already, it will take decades to clean up a legacy of contamination.
Located in Data and maps › Indicators › Progress in management of contaminated sites