Abstract
Abstract. The summer drought of 2015 affected a large portion of continental Europe and was one of the most severe droughts in the region since summer 2003. The summer of 2015 was characterized by exceptionally high temperatures in many parts of central and eastern Europe, with daily maximum temperatures 2 °C higher than the seasonal mean (1971–2000) over most of western Europe, and more than 3 °C higher in the east. It was the hottest and climatologically driest summer over the 1950–2015 study period for an area stretching from the eastern Czech Republic to Ukraine. For Europe, as a whole, it is among the six hottest and driest summers since 1950. High evapotranspiration rates combined with a lack of precipitation affected soil moisture and vegetation and led to record low river flows in several major rivers, even beyond the drought-hit region. The 2015 drought developed rather rapidly over the Iberian Peninsula, France, southern Benelux and central Germany in May and reached peak intensity and spatial extent by August, affecting especially the eastern part of Europe. Over the summer period, there were four heat wave episodes, all associated with persistent blocking events. Upper-level atmospheric circulation over Europe was characterized by positive 500 hPa geopotential height anomalies flanked by a large negative anomaly to the north and west (i.e., over the central North Atlantic Ocean extending to northern Fennoscandia) and another center of positive geopotential height anomalies over Greenland and northern Canada. Simultaneously, the summer sea surface temperatures (SSTs) were characterized by large negative anomalies in the central North Atlantic Ocean and large positive anomalies in the Mediterranean basin. Composite analysis shows that the western Mediterranean SST is strongly related to the occurrence of dry and hot summers over the last 66 years (especially over the eastern part of Europe). The lagged relationship between the Mediterranean SST and summer drought conditions established in this study can provide valuable skill for the prediction of drought conditions over Europe on interannual to decadal timescales.
Highlights
Drought is part of the natural climate cycle that commonly affects large areas and can last for several months or even years
This threshold was chosen as a compromise between the strength of the climate anomalies associated with summer drought conditions and the number of maps satisfying this criterion
Based on the analysis presented in the previous sections, the following main conclusions can be drawn:
Summary
Drought is part of the natural climate cycle that commonly affects large areas and can last for several months or even years. It is a complex phenomenon with wide-ranging environmental and socioeconomic impacts and is considered globally to be one of the costliest natural hazards (Wilhite, 2000; EEA, 2010). Drought can cause a wide range of impacts affecting the environment, society and economy, where impacts on agriculture and public water supply are most frequently reported (Stahl et al, 2016). Prolonged droughts with severe impacts, such as the major drought in 2003, have highlighted Europe’s vulnerability to this natural hazard and alerted governments, stakeholders and operational agencies to the disastrous effects droughts may have on the society and economy, including the need for mitigation measures (EEA, 2001, 2010; EC, 2012)
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