Abstract
Abstract. Temporal (serial) clustering of extreme precipitation events on sub-seasonal timescales is a type of compound event. It can cause large precipitation accumulations and lead to floods. We present a novel, count-based procedure to identify episodes of sub-seasonal clustering of extreme precipitation. We introduce two metrics to characterise the prevalence of sub-seasonal clustering episodes and their contribution to large precipitation accumulations. The procedure does not require the investigated variable (here precipitation) to satisfy any specific statistical properties. Applying this procedure to daily precipitation from the ERA5 reanalysis data set, we identify regions where sub-seasonal clustering occurs frequently and contributes substantially to large precipitation accumulations. The regions are the east and northeast of the Asian continent (northeast of China, North and South Korea, Siberia and east of Mongolia), central Canada and south of California, Afghanistan, Pakistan, the southwest of the Iberian Peninsula, and the north of Argentina and south of Bolivia. Our method is robust with respect to the parameters used to define the extreme events (the percentile threshold and the run length) and the length of the sub-seasonal time window (here 2–4 weeks). This procedure could also be used to identify temporal clustering of other variables (e.g. heat waves) and can be applied on different timescales (sub-seasonal to decadal). The code is available at the listed GitHub repository.
Highlights
Regional-scale extreme precipitation events can affect the entire catchment area of a river or a lake and result in flooding
Catchments with high values of subseasonal clustering episodes (Scl) and Scont are of special interest, because in these catchments, sub-seasonal clustering is prevalent and contributes substantially to large 21 d precipitation accumulations
We present a novel count-based procedure to analyse subseasonal clustering of extreme precipitation events
Summary
Regional-scale extreme precipitation events can affect the entire catchment area of a river or a lake and result in flooding. The impact of catchment-wide precipitation extremes is intensified when the events happen in close temporal succession, i.e. when they are serially clustered. The sub-seasonal serial clustering of extreme precipitation is a temporally compounding event (Zscheischler et al, 2020), and it is relevant for several reasons. It can lead to floods in rivers and catchment areas with a high retention capacity. Examples include several floods in Lake Maggiore in southern Switzerland (Barton et al, 2016), the floods in England in winter 2013/2014 (Priestley et al, 2017), the floods in Pakistan in 2010 (e.g., Lau and Kim, 2012; Martius et al, 2013), and the floods in China in summer 2020 (Guo et al, 2020). Temporal dependence of precipitation and other extremes is of interest for insurance companies (Priestley et al, 2018) as floods are a major cause of financial loss from natural hazards (European Environment Agency, 2020)
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