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Ecological status of surface waters in Europe

The Water Framework Directive aims to achieve good status for all rivers, lakes and transitional and coastal waters in the EU. Achieving good ecological status for surface waters is critical to this. According to countries’ second river basin management plans, good ecological status had been achieved for around 40% of surface waters (rivers, lakes and transitional and coastal waters) by 2015. However, these plans show only limited improvement in ecological status since the first plans were published in 2009, with ecological status remaining similar for most water bodies.

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Ocean acidification

Ocean acidification

09 Aug 2021

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.

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European sea surface temperature

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.

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Industrial pollutant releases to water in Europe

Between 2010 and 2019, industrial releases to Europe’s water bodies of pollutants that are damaging to human health and the environment declined overall. Releases of heavy metals declined significantly, while emissions of nitrogen and phosphorus, which cause eutrophication, declined to a lesser extent. In the same period, the economic value of industry increased by 14%, in line with the EU policy objective of supporting industrial growth while decreasing industrial emissions. However, data gaps make it difficult to assess industry’s contribution to overall water pollution in Europe.

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Extreme sea levels and coastal flooding

Extreme sea levels have increased at most locations along the European coastline. Both observed and projected increases can be explained mainly by increases in mean local sea levels. However, extreme sea levels can be further increased by storm surges and tidal changes, particularly along the northern European coastline. In the absence of better coastal protection, the sea level rise projected for 2100 will increase the frequency of extreme coastal flooding events by a factor of 10 to more than 1 000 along most European coastlines, depending on the location and the emissions scenario.

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Economic losses from climate-related extremes in Europe

Between 1980 and 2019, climate-related extremes caused economic losses totalling an estimated EUR 446 billion in the EEA member countries. Although analysing trends in economic losses is difficult, partly as a result of high variability from year to year, climate-related extremes are becoming more common and, without mitigating action, could result in even greater losses in the coming years. The EU adaptation strategy aims to build resilience and ensure that Europe is well prepared to manage the risks and adapt to the impacts of climate change, thus minimising economic losses and other harms.

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Global and European sea level rise

Global mean sea level (GMSL) has risen about 19 cm since 1900, at an accelerating rate. GMSL reached its highest value ever in 2019. Climate models project a GMSL rise during the 21st century that will likely be in the range of 0.29-0.59 m for a low emissions scenario and 0.61-1.10 m for a high one. GMSL projections that include the possibility of faster disintegration of the polar ice sheets predict a rise of up to 2.4 m in 2100 and up to 15 m in 2300. Most coastal regions in Europe have experienced an increase in sea level relative to land, except for the northern Baltic coast.

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Arctic and Baltic sea ice

Arctic sea ice is declining rapidly. Since 1979, the Arctic has lost, on average, an area of 79 000 km 2 of sea ice per year in summer and 33 000 km 2 per year in winter. The Arctic summer sea ice area in 2020 was the second lowest ever. Arctic sea ice is also getting younger and thinner. A nearly ice-free Arctic sea in summer is projected to be a rare event for 1.5 °C of global warming but the norm for 2.5 °C of warming. The maximum sea ice extent in the Baltic Sea has shown a decreasing trend since about 1800 and reached its lowest value ever in winter 2019/20. This decreasing trend is projected to continue.

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Use of freshwater resources in Europe

Overall, water abstraction and economic growth in the EU showed absolute decoupling over the period 2000–2017. Total water abstraction declined by 17 %, while total gross value added generated from all economic sectors increased by 59 %. However, water scarcity conditions and drought events continue to cause significant risks in southern Europe, as well as in specific areas of other European regions. Agriculture remained the sector exerting the highest pressure on renewable freshwater resources overall, being responsible for 59 % of total water use in Europe in 2017. This is mainly because of agriculture levels in southern Europe. In 2017, 64 % of total water abstraction was from rivers and 24 % from groundwater. Annual renewable freshwater resources per inhabitant showed a decreasing trend across all regions except eastern Europe over the period 1990-2017. Large decreases were observed in Spain (-65 %), Malta (-54 %) and Cyprus (-32 %). Climate change and population increase exerted high pressures on renewable freshwater resources in Europe over this period. The increasing frequency and magnitude of extreme droughts and floods enhance the risk of there being reduced volumes of renewable freshwater resources in the future.

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