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The figure shows the actual compliance with the 2010 emission ceilings for each member state from 2010 to 2019.
The areas of the coloured bars show the total ecological footprint of each region in 2016. They are the product of the per person ecological footprint and the population of each region. The biocapacity of each region is represented by the area within the red lines; the height shows the per capita biocapacity.
The figure shows that substantial amounts of new types of waste will be generated over the coming years by the infrastructure required for the transition to clean energy.
Ocean surface pH declined from 8.2 to below 8.1 over the industrial era as a result of an increase in atmospheric CO 2 concentrations. This decline corresponds to an increase in oceanic acidity of about 30%. Reductions in surface water pH are observed across the global ocean. Ocean acidification has impacts on marine organisms and has already affected the deep ocean, particularly at high latitudes. Models project further ocean acidification worldwide. The target under United Nations Sustainable Development Goal 14.3 is to minimise the impacts of this by 2030.
The waste recycling rate — the proportion of waste generated that is recycled — is growing in the EU-27, indicating progress towards using more waste as a resource and achieving a circular economy. The rate of progress is slowing down, however, with little improvement over the past 5 years. Achieving a more circular economy requires a faster rate of progress, as the amount of waste recycled is still less than half of total waste generated. Specific waste streams show varying recycling rates, ranging from 66% for packaging waste to 39% for electrical and electronic waste.
The map presents the proportion of surface water bodies (rivers, lakes, transitional and coastal waters) in less than good ecological status per River Basin District.
This dataset presents the projected changes in the percentage of summer days (May-September) classified as heatwaves days between the historical period (1951–2000) and the future period (2051–2100) in 571 European cities therefore indicating the projected future risks to human health.
The chart shows the scoring of countries’ reporting performance on the basis of Eionet Core Data Flows.
All European seas have warmed considerably since 1870, particularly since the late 1970s. During the period for which comprehensive data are available (1981-2018), sea surface temperature increased by between 0.2 °C, in the North Atlantic, and 0.5 °C, in the Black Sea, per decade. This increase is projected to continue, although more slowly than that of air temperature over land. The frequency and magnitude of marine heatwaves has also increased significantly globally and in European seas and is projected to continue, with increasing impacts on ecosystems and climate expected.
Climate change has increased forest fire risk across Europe. Even so, the burnt area of the Mediterranean region has decreased slightly since 1980, indicating that fire control efforts have been effective. However, in recent years, forest fires have affected regions in central and northern Europe not typically prone to fires, and, in 2018, more countries suffered large fires than ever before, coinciding with record droughts and heatwaves. An expansion of fire-prone areas and longer fire seasons are projected in most European regions, so additional adaptation measures are needed.
Results of classification of Chemical Status using the CHASE+ tool. Chemical status is evaluated in five classes, where NPAhigh and NPAgood are recognised as ‘non-problem areas’ and PAmoderate, PApoor and PAbad are recognised as ‘problem areas’ .
Results of classification of Chemical Status using the CHASE+ tool. Chemical status is evaluated in five classes, where NPAhigh and NPAgood are recognised as ‘non-problem areas’ and PAmoderate, PApoor and PAbad are recognised as ‘problem areas’.
The EEA marine assessment grid is a vector dataset based on the 'EEA reference grid'. It covers the Seas and Marine areas surrounding Europe. Open sea areas are covered by 100 km polygon grid shapes. Coastal areas are covered by 20 km polygon grid shapes. The combined EEA assessment grid fills the entire area of interest with grid cells without gaps and overlaps. Data and assessment results spatially mapped to the EEA assessment grid ensures that data can be compared in a uniform way across the European regional seas.
Between 2010 and 2018, total waste generation increased by 5% (114 million tonnes) in the EU-27. When major mineral wastes are excluded from the total, it increased by 7% (50.3 million tonnes). This means that the EU-27 is not on track to meet its policy goal of reducing waste generation. These trends have been driven mainly by economic growth; however, the amount of waste generated increased by a smaller extent than the economy, indicating the relative decoupling of waste generation from economic growth.
A key goal of EU waste policy is to cut the amount of waste sent to landfill. Overall, the amount of landfill waste has decreased ( in 2018 it was 7.6% less than in 2010), even though the total amount of waste generated has continued to increase. The landfill rate — waste sent to landfill as a proportion of waste generated — decreased from 23% to 20% in the same period. For some waste streams, such as (mixed) household and similar waste, relatively good progress has been made towards diverting waste from landfill. However, the amount of sorting residues sent to landfill has doubled since 2010.
For references, please go to https://www.eea.europa.eu/data-and-maps/find/global or scan the QR code.
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