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Indicator Assessment
Trends in consecutive dry days and consecutive wet days
Note: High confidence in a long-term trend is shown by a black dot (if the 5th to 95th percentile slopes are of the same sign). Boxes which have a thick outline contain at least three stations. Area averaged annual time series of percentage changes and trend lines are shown below each map for one area in northern Europe (blue line, 5.6 to 16.9 °E and 56.2 to 66.2 °N) and one in south-western Europe (red line, 350.6 to 1.9 °E and 36.2 to 43.7 °N).
Data provenance info is missing.
Projected changes in 20-year maximum precipitation in summer and winter
Note: Projected changes in 20-year maximum daily precipitation in summer (left) and winter (right) from 1961–1990 to 2071–2100 based on the ensemble mean using a regional climate model (RCM) nested in 6 general circulation model (GCMs). Changes that approximately lie outside of ± 10 % for the ensemble average are significant at the 10 % significance level.
Data provenance info is missing.
Observational records do not indicate widespread significant trends in either the number of consecutive wet days (indicating flood risks) or dry days (indicating drought risks) across Europe (Figure 1). Some changes in these variables have been observed across Europe but most of them are not statistically significant due to large natural variability. Interestingly, parts of north-western and north-eastern Europe show significant increasing trends in both the number of wet days and dry days. The proportion of Europe that has experienced extreme or moderate meteorological drought conditions did not change significantly during the 20th century [1]. Summer droughts have also shown no statistically significant trend during the period 1901–2002 [2].
Model-based projections for the 21st century show a reduction in the contribution of low rainfall days to total annual precipitation, and an increase in the contribution of high rainfall days in most parts of Europe, with the exception of the Iberian Peninsula and Mediterranean regions [3]. The recurrence time of intense precipitation is reduced from 20 years in the 1961–1990 periods to 6–10 years in the 2071–2100 period over northern and eastern central Europe in summer (Figure 2 left) and to 2–4 years in Scandinavia in winter (Figure 2 right) [4].
Extreme precipitation events are likely to become more frequent in Europe [5]. Changes in extreme precipitation depend on the region, with a high confidence of increased extreme precipitation in northern, Atlantic (all seasons) and central Europe (except in summer) [6]. Future projections are inconsistent in southern Europe (all seasons) [7]. The number of consecutive dry days is projected to increase significantly in southern and central Europe, in particular in summer, and to decrease in northern Europe, in particular in winter [8].
[1] B. Lloyd-Hughes and M. A. Saunders, “A Drought Climatology for Europe,” International Journal of Climatology 22 (2002): 1571–1592, doi:10.1002/joc.846.
[2] A. Robock et al., “Forty-five Years of Observed Soil Moisture in the Ukraine: No Summer Desiccation (yet),” Geophysical Research Letters 32 (2005): L03401, doi:10.1029/2004GL021914.
[3] F Boberg et al., “Improved Confidence in Climate Change Projections of Precipitation Further Evaluated Using Daily Statistics from ENSEMBLES Models,” Climate Dynamics 35 (2009): 1509–1520, doi:10.1007/s00382-009-0683-8.
[4] J. E. Haugen and T. Iversen, “Response in Extremes of Daily Precipitation and Wind from a Downscaled Multi-model Ensemble of Anthropogenic Global Climate Change Scenarios,” Tellus Series A – Dynamic Meteorology and Oceanography 60, no. 3 (2008): 411–426; G Nikulin et al., “Evaluation and Future Projections of Temperature, Precipitation and Wind Extremes over Europe in an Ensemble of Regional Climate Simulations,” Tellus Series A 64 (2011): 41–55, doi:10.1111/j.1600-0870.2010.00466.x; S. I. Seneviratne et al., “Changes in Climate Extremes and Their Impacts on the Natural Physical Environment,” in Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation, A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change (IPCC) (Cambridge: Cambridge University Press, 2012), pp. 109–230, http://ipcc-wg2.gov/SREX/contributors/chapter/chapter-3.
[5] S. Solomon et al., eds., Climate Change 2007: The Physical Science Basis (Cambridge (UK): Cambridge University Press, 2007).
[6] Seneviratne et al., “Changes in Climate Extremes and Their Impacts on the Natural Physical Environment.”
[7] J Sillman and E Roeckner, “Indices of Extreme Events in Projections of Anthropogenic Climate Change,” Climatic Change 86, no. 1 (2008): 83–104, doi:10.1007/s10584-007-9308-6; Boberg et al., “Improved Confidence in Climate Change Projections of Precipitation Further Evaluated Using Daily Statistics from ENSEMBLES Models”; Seneviratne et al., “Changes in Climate Extremes and Their Impacts on the Natural Physical Environment.”
[8] IPCC, Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation. Special Report of the Intergovernmental Panel on Climate Change, ed. C. B. Field et al. (Cambridge: Cambridge University Press, 2012), fig. 3.10, http://ipcc-wg2.gov/SREX/report/.
In April 2013 the European Commission presented the EU Adaptation Strategy Package (http://ec.europa.eu/clima/policies/adaptation/what/documentation_en.htm). This package consists of the EU Strategy on adaptation to climate change /* COM/2013/0216 final */ and a number of supporting documents. One of the objectives of the EU Adaptation Strategy is Better informed decision-making, which should occur through Bridging the knowledge gap and Further developing Climate-ADAPT as the ‘one-stop shop’ for adaptation information in Europe. Further objectives include Promoting action by Member States and Climate-proofing EU action: promoting adaptation in key vulnerable sectors. Many EU Member States have already taken action, such as by adopting national adaptation strategies, and several have also prepared action plans on climate change adaptation.
The European Commission and the European Environment Agency have developed the European Climate Adaptation Platform (Climate-ADAPT, http://climate-adapt.eea.europa.eu/) to share knowledge on observed and projected climate change and its impacts on environmental and social systems and on human health; on relevant research; on EU, national and subnational adaptation strategies and plans; and on adaptation case studies.
No targets have been specified.
The number of consecutive wet days is defined as the number of days in a row during which every day is a wet day (daily precipitation amounts are more than 1 mm in every day during the period). Respectively, consecutive dry days show less than 1 mm per day.
Precipitation extremes over Europe are examined in an ensemble of RCA3 regional climate model simulations driven by six different global climate models (ECHAM5, CCSM3, HadCM3, CNRM, BCM and IPSL) under the SRES A1B emission scenario. The extremes are expressed in terms of the 20-yr return values of seasonal precipitation extremes.
Not applicable
Not applicable
The risks posed by precipitation-related hazards, such as flooding events (including flash floods) and landslides, are also influenced by non-climatic factors, such as population density, floodplain development and land-use change. Hence, estimates of future changes in such risks need to consider changes in both climatic and non-climatic factors. Estimates of trends in heavy or extreme precipitation are more uncertain than trends in mean precipitation because, by their very nature, extreme precipitation events have a low frequency of occurrence. This leads to greater uncertainties when assessing the statistical significance of observed changes.
Further information on uncertainties is provided in Section 1.7 of the EEA report on Climate change, impacts, and vulnerability in Europe 2012 (http://www.eea.europa.eu/publications/climate-impacts-and-vulnerability-2012/
No uncertainty has been specified
For references, please go to https://www.eea.europa.eu/data-and-maps/indicators/precipitation-extremes-in-europe-1/assessment or scan the QR code.
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