2020
DOI: 10.1002/joc.6829
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A ranking of concurrent precipitation and wind events for the Iberian Peninsula

Abstract: The Iberian Peninsula (IP) is often affected by extreme precipitation and severe winds that are mostly associated with extratropical cyclones and their atmospheric fronts. ERA5 reanalysis data are used to revise and update two existing rankings of extreme precipitation and extreme potential wind‐loss days for the extended winter months on the IP. A ranking of concurrent precipitation and wind extreme events is produced by matching the two individual rankings for the IP and for specific IP subregions, including… Show more

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Cited by 38 publications
(24 citation statements)
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“…Previous studies have quantified the critical accumulated precipitation amounts that can trigger landslides (Brunetti et al., 2010; Guzzetti et al., 2007; Peruccacci et al., 2017; Zêzere et al., 2015). Given that accumulated precipitation extremes are often caused by clusters of precipitation events from multiple storms (Bevacqua, Zappa, & Shepherd, 2020; Dacre & Pinto, 2020; Priestley et al., 2017) sometimes in association with individual atmospheric rivers (Hénin et al., 2021; Ramos et al., 2015), here we investigate whether a clear relationship between precipitation clustering and landslides can be identified. Specifically, we ask: are deep‐ and/or shallow‐landslides preceded by temporal clustering of moderate to extreme rainfall events?…”
Section: Temporally Compounding Event: Precipitation Clustering Favors Landslide Occurrencesmentioning
confidence: 99%
“…Previous studies have quantified the critical accumulated precipitation amounts that can trigger landslides (Brunetti et al., 2010; Guzzetti et al., 2007; Peruccacci et al., 2017; Zêzere et al., 2015). Given that accumulated precipitation extremes are often caused by clusters of precipitation events from multiple storms (Bevacqua, Zappa, & Shepherd, 2020; Dacre & Pinto, 2020; Priestley et al., 2017) sometimes in association with individual atmospheric rivers (Hénin et al., 2021; Ramos et al., 2015), here we investigate whether a clear relationship between precipitation clustering and landslides can be identified. Specifically, we ask: are deep‐ and/or shallow‐landslides preceded by temporal clustering of moderate to extreme rainfall events?…”
Section: Temporally Compounding Event: Precipitation Clustering Favors Landslide Occurrencesmentioning
confidence: 99%
“…This type corresponds to about 30 % of the cases for wind extremes affecting Iberia. The later study of Hénin et al (2020) further documented the importance of the "hybrid type" cases for the occurrence of wind extremes in the region, though the relative number of extreme wind events associated with this large scale set up is lower (about 15 %).…”
Section: Wind Extremes and Storm Surgesmentioning
confidence: 97%
“…Figure 5. Schematic illustration of the hybrid type pattern with a low pressure system over the British Isles and a high pressure system over the southern North Atlantic (Hénin et al, 2020).…”
Section: Compound Eventsmentioning
confidence: 99%