Europe’s cities face more extreme weather than previously thought – “This level of change could be beyond breaking point”
21 February 2018 (Newcastle University) – A landmark study shows the impact of flooding, droughts and heatwaves by 2050-2100 will exceed previous predictions. The research, by Newcastle University, UK, has for the first time analysed changes in flooding, droughts, and heatwaves for all European cities using all climate models.
Published today in the academic journal Environmental Research Letters, the study shows:
- a worsening of heatwaves for all 571 cities
- increasing drought conditions, particularly in southern Europe
- an increase in river flooding, especially in north-western European cities
- for the worst projections, increases in all hazards for most European cities
- Cork, Derry, Waterford, Wrexham, Carlisle, Glasgow, Chester, and Aberdeen could be the worst hit cities in the British Isles for river flooding
- Even in the lowest case scenario, 85% of UK cities with a river are predicted to face increased river flooding
Increase in “heatwave days” for all European cities
Using projections from all available climate models (associated with the high emission scenario RCP8.5 which implies a 2.6°C to 4.8°C increase in global temperature), the team showed results for three possible futures which they called the low, medium and high impact scenarios.The study shows that even the most optimistic of these – the low impact scenario – predicts both the number of heatwave days and their maximum temperature will increase for all European cities.Southern European cities will see the biggest increases in the number of heatwave days, while central European cities will see the greatest increase in temperature during heatwaves – between 2°C to 7°C for the low scenario and 8°C to 14°C for the high scenario.For changes in droughts and floods, the cities which are affected depend on the scenario. For the low impact scenario, drought conditions only intensify in southern European cities while river flooding only worsens in north-western ones.
Worst flooding in the British Isles
The British Isles have some of the worst overall flood projections. Even in the most optimistic scenario, 85% of UK cities with a river – including London – are predicted to face increased river flooding, while for the high scenario, half of UK cities could see at least a 50% increase on peak river flows. The cities predicted to be worst hit under the high impact scenario are Cork, Derry, Waterford, Wrexham, Carlisle, and Glasgow, and for the more optimistic, low impact, scenario are Derry, Chester, Carlisle, Aberdeen, and Glasgow.By 2051-2100, for the low impact scenario, cities in the south of Iberia, such as Malaga and Almeria, are expected to experience droughts more than twice as bad as in 1951-2000. While for the high impact scenario, 98% of European cities could see worse droughts in the future and cities in Southern Europe may experience droughts up to 14 times worse than today.“Although southern European regions are adapted to cope with droughts, this level of change could be beyond breaking point,” Dr Selma Guerreiro, lead author, explains.“Furthermore, most cities have considerable changes in more than one hazard which highlights the substantial challenge cities face in managing climate risks.”The implications of the study in terms of how Europe adapts to climate change are far-reaching, says Professor Richard Dawson, co-author and lead investigator of the study. “The research highlights the urgent need to design and adapt our cities to cope with these future conditions.“We are already seeing at first hand the implications of extreme weather events in our capital cities. In Paris the Seine rose more than 4 metres above its normal water level. And as Cape Town prepares for its taps to run dry, this analysis highlights that such climate events are feasible in European cities too.”
80% increase in peak river flows
Of the European capitals, Dublin, Helsinki, Riga, Vilnius and Zagreb are likely to experience the most extreme rise in flooding. For the high impact scenario, several European cities could see more than 80% increases on peak river flows, including Santiago de Compostela in Spain, Cork and Waterford in Ireland, Braga and Barcelos in Portugal and Derry/ Londonderry in the UK.Stockholm and Rome could see the greatest increase in number of heat-wave days while Prague and Vienna could see the greatest increase in maximum temperatures during heat-waves. Lisbon and Madrid are in the top capital cities for increases in frequency and magnitude of droughts, while Athens, Nicosia, Valleta and Sofia might experience the worst increases in both drought and heatwaves.The United Nation’s Intergovernmental Panel on Climate Change (IPCC) has recognised the important role cites must play in tackling climate change and next month will hold its first Cities and Climate Change Science Conference, in Edmonton, Canada.“A key objective for this conference,” explains Professor Dawson, who sits on the Scientific Steering Committee for the IPCC Conference, “is to bring together and catalyse action from researchers, policy makers and industry to address the urgent issue of preparing our cities, their population, buildings and infrastructure for climate change.”Dr Guerreiro adds:”Our analysis does not preclude the need for detailed climate change impact assessment for each city. But it does provide comparable information for different impacts and cities that can be used to prioritise national and European adaptation investments and guide more detailed adaptation studies.”Reference:“Future heat-waves, drought and floods in 571 European cities”. Selma Guerreiro, Richard Dawson, Chris Kilsby, Elizabeth Lewis and Alistair Ford. Environmental Research Letters. Jan 2018
Europe’s cities face more extreme weather than previously thought
Cities are particularly vulnerable to climate risks due to their agglomeration of people, buildings and infrastructure. Differences in methodology, hazards considered, and climate models used limit the utility and comparability of climate studies on individual cities. Here we assess, for the first time, future changes in flood, heat-waves (HW), and drought impacts for all 571 European cities in the Urban Audit database using a consistent approach. To capture the full range of uncertainties in natural variability and climate models, we use all climate model runs from the Coupled Model Inter-comparison Project Phase 5 (CMIP5) for the RCP8.5 emissions scenario to calculate Low, Medium, and High Impact scenarios, which correspond to the 10th, 50th, and 90th percentiles of each hazard for each city. We find that HW days increase across all cities, but especially in southern Europe, whilst the greatest HW temperature increases are expected in central European cities. For the low impact scenario, drought conditions intensify in southern European cities while river flooding worsens in northern European cities. However, the high impact scenario projects that most European cities will see increases in both drought and river flood risks. Over 100 cities are particularly vulnerable to two or more climate impacts. Moreover, the magnitude of impacts exceeds those previously reported highlighting the substantial challenge cities face to manage future climate risks.
FuturFuture heat-waves, droughts and floods in 571 European cities