Changing Dynamics of Western European Summertime Cut‐off Lows: A Case Study of the July 2021 Flood Event

In July 2021, a cut-off low-pressure system brought extreme precipitation to Western Europe. Record daily rainfall totals led to flooding that caused loss of life and substantial damage to infrastructure. Climate change can amplify rainfall extremes via thermodynamic processes, but the role of dynamical changes is uncertain. We assess how the dynamics involved in this particular event are changing using flow analogues. Using past and present periods in reanalyses and large ensemble climate model data of the present-day climate and 2 degrees C warmer climate, we find that the best flow analogues become more similar to the cut-off low-pressure system observed over Western Europe in 2021. This may imply that extreme rain events will occur more frequently in the future. Moreover, the magnitude of the analogue lows has deepened, and the associated air masses contain more precipitable water. Simulations of future climate show similar events of the future could lead to intense rainfall further east than in the current climate, due to a shift of the pattern. Such unprecedented events can have large consequences for society, we need to mitigate and adapt to reduce future impacts. In July 2021, a cut-off low-pressure system brought extreme precipitation to Western Europe. By identifying atmospheric analogues from reanalysis and climate model data, we assess how the dynamics involved in this event are changing. We show similar low-pressure systems are occurring more frequently, the magnitude of the lows has deepened and events could persist longer-and assessing into the future, we identify a spatial shift which could cause intense rainfall further east than in the current climate. image