Abstract
Flooding events associated with extreme precipitation have had large impacts in Norway. It is well known that these heavy precipitation events affecting Norway (and other parts of Europe) are strongly associated with atmospheric rivers (ARs). We assess trends in Norwegian AR characteristics, and the influence of AR variability on extreme precipitation in Norway. We first evaluate the ability of a high-resolutionglobal climate model (EC-Earth) to simulate ARs, compared to ERA-Interim. We evaluate the EC-Earth simulated relationship between ARs and extreme precipitation in western Norway, compared to the observed relationship. We find that EC-Earth is able to simulate well the statistics of AR events and the related precipitation. The intensity and frequency of ARs making landfall in Norway both increase by the end of the century and we find a shift in seasonality of AR events in the future period. In two regions on the west coast, the majority of winter precipitation maxima are associated with AR events (> 80% of cases). Next we assess the influence of AR variability on extreme precipitation. A non-stationary extreme value analysis indicates that the magnitude of extreme precipitation events in these regions is associated with AR intensity. Indeed, the 1-in-20 year extreme event is 17% larger when the AR-intensity is high, compared to when it is low. There is little influence of specific humidity on the variability of extreme precipitation after all variables are de-trended. Finally, we find that the region mean temperature during winter AR events increases in the future. In the future, when the climate is generally warmer, AR days will tend to make landfall when the temperature is above the freezing point. The partitioning of more precipitation as rain, rather than as snow, can have severe impacts on flooding and water resource management.
Highlights
Flooding can have large impacts on society and the economy (Kousky 2014)
We first evaluate the simulation of atmospheric rivers (ARs) events in the current period of EC-Earth compared to ERA-Interim
We are interested in the future changes in atmospheric river (AR) events, and on the influence that AR variability has on extreme precipitation
Summary
Flooding can have large impacts on society and the economy (Kousky 2014). In Norway, flooding events have caused substantial damages. ARs have been linked to extreme winds (Waliser and Guan 2017), storm surge (Ridder et al 2018), and precipitation (Lavers et al 2010; Lavers and Villarini 2013; Ramos et al 2015) Both climate change and natural variability can play a role in changing the nature of extreme precipitation. In an extra-tropical cyclone, the cold front moves towards the warm front causing a narrowing of the warm sector and a band of high water vapor along the cold front (Sodemann and Stohl 2013; Dacre et al 2015) This view highlights the importance of extra-tropical cyclones for the moisture transport and precipitation associated with ARs. The use of a high-resolution global climate model was considered an essential part of this research for several reasons. The section will outline the data sets and methods used in the study, followed by results, discussion and conclusions
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