Climate change will lead to an increased frequency of drought and extended low flow conditions, lowering the dilution capacity of rivers (Whitehead et al. 2009; Reder et al. 2013). Increased water temperatures during heat waves will decrease the oxygen capacity of rivers (Cox and Whitehead 2009), and more frequent heavy rainfall events could increase the runoff of pollutants from urban and agricultural areas (Bloomfield et al. 2006; Boorman 2003). Weather extremes combined with seasonally changed precipitation patterns could increase losses of soil and nutrients, and complicate progress towards the achievement of good ecological status for all water bodies in Europe as required by the Water Framework Directive (WFD). Further consequences of these changes could be higher exposure of humans and aquatic life to toxic chemicals (Boxall et al. 2009), increasing frequency of harmful algae and cyanobacteria (Paerl and Paul 2012; Johnson et al. 2009) and increased river transport of nutrients and other compounds to Europe’s regional seas including dead zones (Billen et al. 2011; Störmer 2011).
2.6.2 Limitations on water use
Schewe et al. (2014) analysed trends and uncertainties in future river discharge with 2°C global warming, and showed a decrease in river discharge of more than 50 per cent could be expected in Southern Europe, Israel and large parts of Turkey, while South Eastern Europe, Eastern Europe and the Caucasus sub-regions could experience a decrease of up to 30 per cent. Discharge is also projected to decrease in southern parts of the Central Asian sub-region. In addition, model simulations show that stream flow droughts will become more severe and persistent, with a decreasing trend in low-flow discharge in many European regions (Forzieri et al. 2014). Hence high water demands for agricultural, industrial and domestic purposes will be exacerbated by global warming and socio-economic development.
Countries may compensate for their scarcity of renewable freshwater by exploiting groundwater resources. In Europe (including the Russian Federation), 15 per cent of total water abstraction is pumped from groundwater aquifers (van der Gun 2012). The largest share is allocated to drinking water purposes, that is, about 75 per cent of EU inhabitants depend
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Countries may compensate for their scarcity of renewable freshwater by exploiting groundwater resources for inefficient
irrigation methods Credit: Shutterstock/alexmisu
on groundwater for their water supply (EC 2015c). Aquifers characterized by groundwater depletion are mostly located in arid and semi-arid areas of the pan-European region, and can be attributed to agricultural withdrawals (Siebert et al. 2010; van der Gun and Lipponen 2010). Siebert et al. (2010) used a modelling approach to estimate groundwater use for irrigation requirements based on national and sub-national statistics on irrigated areas. Their results show for example that 50 per cent of the water used for irrigation was abstracted from groundwater in Turkey and Israel, and on average 40 per cent in Western and Central Europe, contrasted with 5 per cent in Central Asia. Furthermore, the general warming trend is causing an overall warming of rivers and reduction of flows, which are also likely to affect the electricity production sector (van Vliet et al. 2012), with concomitant effects on electricity prices (van Vliet et al. 2013).
Competition for water increases the risk of a conflict of interests between water-related sectors (Flörke et al. 2012) and can affect the economy. The 2006-2007 survey from the Environment Directorate-General of the European Commission (DG Environment) estimated the economic impacts of droughts over the past 30 years at €100 billion across the EU, with annual costs at more than €6.2 billion,
GEO-6 Assessment for the pan-European Region
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