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Urban green spaces, forests for cooler cities and healthier people
Reallocation of emissions from energy industries to end users 2005–2009
Carbon Capture and Storage (CCS) consists of the capture of carbon dioxide (CO2) from power plants and/or CO2-intensive industries such as refineries, cement, iron and steel, its subsequent transport to a storage site, and finally its injection into a suitable underground geological formation for the purposes of permanent storage. It is considered to be one of the medium term 'bridging technologies' in the portfolio of available mitigation actions for stabilising concentrations of atmospheric CO2, the main greenhouse gas (GHG).
Forests do not only provide us food, fibre and medicine, they regulate our climate and improve our quality of life. Human activities and climate change exert increasing pressure on our forest resources and the services they provide. With increasing demand on forests services on the one side, and uncertainty and risks linked to climate change on the other, we need to ensure that forests can continue fulfilling their multifunctional role.
Greenhouse gas emission trends and projections in Europe 2011 - Tracking progress towards Kyoto and 2020 targets07 Oct 2011
This report presents an overview of the progress achieved so far by the EU, its Member States and other EEA member countries towards their respective targets under the Kyoto Protocol and the EU burden-sharing agreement, as well as 2020 targets set at EU level. The assessment is based on greenhouse gas (GHG) emission data in Europe for the period 2008–2010, including recent EEA estimates of proxy 2010 GHG emissions.
This report presents a retrospective overview of the greenhouse gas (GHG) emission trends in Europe from 1990 to 2008, with a particular focus on the underpinning drivers and the influence of EU policies. The analysis is based on the combination of decomposition analyses to identify the respective influence of each identified driver and an overview of the main EU policies and their likely effects on these drivers. The period covered by the analysis stops in 2008. As a result, the analysis does not address the effects of the recent economic crisis on GHG emissions. This reinforces the conclusion on long-term emission drivers. The report covers the EU-27 and presents results for the other European Environment Agency (EEA) member countries (Iceland, Liechtenstein, Norway, Switzerland and Turkey) and Croatia (EU candidate country, together with Turkey) as far as data are available.
This report provides an early estimate of greenhouse gas (GHG) emissions in the EU‑15 and EU‑27 for the year 2010. The official submission of 2010 data to the United Nations Framework Convention on Climate Change (UNFCCC) will occur in 2012.
Waste opportunities — Past and future climate benefits from better municipal waste management in Europe29 Aug 2011
Using a life-cycle perspective, this report analyses the greenhouse gas emissions (GHG) from municipal solid waste management in the EU, plus Norway and Switzerland. Three scenarios illustrate how waste management and associated GHG emissions might develop until 2020.
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.
The report assesses the occurrence and impacts of disasters and the underlying hazards such as storms, extreme temperature events, forest fires, water scarcity and droughts, floods, snow avalanches, landslides, earthquakes, volcanoes and technological accidents in Europe for the period 1998-2009.
The EU emitted close to 5 billion tonnes (Gt) of CO2-equivalent emissions in 2008. It contributes today around 12 % of annual global anthropogenic direct greenhouse gas emissions. The EU is making good progress towards achieving its emission reduction targets. A rapid, sustained and effective transition to a low carbon economy is necessary to mitigate climate change and to meet global greenhouse gas emission targets.
Average global air and ocean temperatures are rising, leading to the melting of snow and ice and rising global mean sea level. Ocean acidification results from higher CO2 concentrations. With unabated greenhouse gas emissions, climate change could lead to an increasing risk of irreversible shifts in the climate system with potentially serious consequences. Temperature rises of more than 1.5–2 °C above pre-industrial levels are likely to cause major societal and environmental disruptions in many regions. The atmospheric CO2 concentration needs to be stabilised at 350–400 parts per million (ppm) in order to have a 50 % chance of limiting global mean temperature increase to 2 °C above pre-industrial levels (according to the IPCC in 2007, and confirmed by later scientific insights).
This report presents an overview of the progress achieved so far by the EU, its Member States and other EEA member countries towards their respective targets under the Kyoto Protocol and the EU burden-sharing agreement. The assessment is based on greenhouse gas emission data in Europe for 2008, the first year of the Kyoto Protocol's first commitment period which runs from 2008 to 2012. The recent availability of 2009 emissions estimates for the EU and a limited number of countries broadens, in these cases, the basis of the assessment to two years of the five-year commitment period.
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 2008 for EU-27, EU-15, individual Member States and economic sector.
The variety of life underpins our social and economic wellbeing and will be increasingly an indispensible resource in the battle against climate change. However, our consumption and production patterns are depriving ecosystems of their capacity to withstand climate change and deliver the services we need from them. As we understand more about the ways that climate change is impacting biodiversity, it becomes clear that we cannot tackle the two crises separately. Their interdependence requires us to address them together.
Indicators tracking transport and environment in the European Union
Signals takes us on a journey, following the course of water from the glaciers of the Alps to the permafrost of the Arctic and the delta of the Ganges. We travel to familiar and far-flung places, looking at how we can rebuild our relationships with the crucial elements of everyday life— water, soil, air — and the animals and plants that make up the tapestry of life on Earth.
Each message provides a short assessment focusing on a specific ecosystem or issue related to biodiversity in Europe.
European countries have significantly reduced anthropogenic emissions of ozone precursor gases since 1990. In general, however, ambient air measurements in urban and rural areas of Europe do not show any downward trends in ground-level ozone. The main purpose of this report is to shed light on possible reasons.
For references, please go to http://www.eea.europa.eu/themes/climate/publications/publications_topic or scan the QR code.
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