Authors
Nathalie Schaller, Alison L Kay, Rob Lamb, Neil R Massey, Geert Jan Van Oldenborgh, Friederike EL Otto, Sarah N Sparrow, Robert Vautard, Pascal Yiou, Ian Ashpole, Andy Bowery, Susan M Crooks, Karsten Haustein, Chris Huntingford, William J Ingram, Richard G Jones, Tim Legg, Jonathan Miller, Jessica Skeggs, David Wallom, Antje Weisheimer, Simon Wilson, Peter A Stott, Myles R Allen
Publication date
2016/6
Journal
Nature Climate Change
Volume
6
Issue
6
Pages
627-634
Publisher
Nature Publishing Group UK
Description
A succession of storms reaching southern England in the winter of 2013/2014 caused severe floods and £451 million insured losses. In a large ensemble of climate model simulations, we find that, as well as increasing the amount of moisture the atmosphere can hold, anthropogenic warming caused a small but significant increase in the number of January days with westerly flow, both of which increased extreme precipitation. Hydrological modelling indicates this increased extreme 30-day-average Thames river flows, and slightly increased daily peak flows, consistent with the understanding of the catchment’s sensitivity to longer-duration precipitation and changes in the role of snowmelt. Consequently, flood risk mapping shows a small increase in properties in the Thames catchment potentially at risk of riverine flooding, with a substantial range of uncertainty, demonstrating the importance of explicit modelling of …
Scholar articles
N Schaller, AL Kay, R Lamb, NR Massey… - Nature Climate Change, 2016