Estimación del efecto &lt;em&gt;Venturi&lt;/em&gt; como factor desencadenante de la pluviometría en la Sierra de Grazalema

Naranjo-Barea, Alfonso Jesús; Rodrigo‐Comino, Jesús; Senciales-González, José María

doi:10.3989/pirineos.2017.172008

Cited by 2 publications

(1 citation statement)

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“…Ninyerola et al (2007), mapped annual amounts of precipitation ranging from scarce 200-400 mm in the southeast of the Iberian Peninsula and in the lowest sectors of the large basins of the Ebro, Duero, Tajo and Guadiana rivers, to 1400-1600 mm in the northwest and north fringes open to the Atlantic ocean, and in the western sector of the Pyrenees. Besides the Pyrenees, only very few spots of high precipitation are detected in mountains by Ninyerola et al (2007), including small locations in the Central System, and Sierra de Grazalema (south of Spain), but with precipitation values which differ greatly from small scale studies, which show amounts over 2000 mm per year (García et al 2017;Naranjo-Barea et al 2017). This exemplifies the large uncertainty when mapping precipitation amounts if mountain areas are misrepresented; uncertainty that must be larger when dealing with daily values and extreme events of precipitation.…”

Section: Introductionmentioning

confidence: 89%

The significance of monitoring high mountain environments to detect heavy precipitation hotspots: a case study in Gredos, Central Spain

Morán-Tejéda

Llorente-Pinto

Barbancho

et al. 2021

Theor Appl Climatol

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In 2015, a new automatic weather station (AWS) was installed in a high elevation site in Gredos mountains (Central System, Spain). Since then, a surprisingly high number of heavy precipitation events have been recorded (55 days with precipitation over 50 mm, and a maximum daily precipitation of 446.9 mm), making this site a hotspot in Spain in terms of annual precipitation (2177 mm year) and extreme precipitation events. The neighboring stations available in the region with longer data series, including the closest ones, already informed of wet conditions in the area, but not comparable with such anomaly behavior detected in the new station (51% higher). In this study, we present the temporal variability of detected heavy precipitation events in this mountain area, and its narrow relation with atmospheric patterns over the Iberian Peninsula. Results revealed that 65% of the events occurred during advections from West, Southwest, South and cyclonic situations. A regression analysis showed that the precipitation anomaly is mostly explained by the location windward to the Atlantic wet air masses and the elevation. However, the variance explained by the models is rather low (average R2 for all events > 50 mm is 0.21). The regression models underestimate on average a 60% intensity of rainfall events. Oppositely, the high-resolution weather forecast model AROME at 0.025° was able to point out the extraordinary character of precipitation at this site, and the underestimation of observed precipitation in the AWS was about 26%. This result strongly suggests the usefulness of weather models to improve the knowledge of climatic extremes over large areas, and to improve the design of currently available observational networks.

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