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Large-scale drivers of the mistral wind: link to Rossby wave life cycles and seasonal variability

Yonatan Givon, Douglas Keller, Vered Silverman, Romain Pennel, Philippe Drobinski, Shira Raveh‐Rubin

2021Weather and Climate Dynamics37 citationsDOIOpen Access PDF

Abstract

Abstract. The mistral is a northerly low-level jet blowing through the Rhône valley in southern France and down to the Gulf of Lion. It is co-located with the cold sector of a low-level lee cyclone in the Gulf of Genoa, behind an upper-level trough north of the Alps. The mistral wind has long been associated with extreme weather events in the Mediterranean, and while extensive research focused on the lower-tropospheric mistral and lee cyclogenesis, the different upper-tropospheric large- and synoptic-scale settings involved in producing the mistral wind are not generally known. Here, the isentropic potential vorticity (PV) structures governing the occurrence of the mistral wind are classified using a self-organizing map (SOM) clustering algorithm. Based upon a 36-year (1981–2016) mistral database and daily ERA-Interim isentropic PV data, 16 distinct mistral-associated PV structures emerge. Each classified flow pattern corresponds to a different type or stage of the Rossby wave life cycle, from broad troughs to thin PV streamers to distinguished cutoffs. Each of these PV patterns exhibits a distinct surface impact in terms of the surface cyclone, surface turbulent heat fluxes, wind, temperature and precipitation. A clear seasonal separation between the clusters is evident, and transitions between the clusters correspond to different Rossby-wave-breaking processes. This analysis provides a new perspective on the variability of the mistral and of the Genoa lee cyclogenesis in general, linking the upper-level PV structures to their surface impact over Europe, the Mediterranean and north Africa.

Topics & Concepts

CyclogenesisClimatologyRossby waveCyclone (programming language)Jet streamTrough (economics)Potential vorticityTropical cyclogenesisFrontogenesisVorticityAtmospheric sciencesGeologyEnvironmental scienceMeteorologyJet (fluid)Mesoscale meteorologyGeographyPhysicsVortexComputer scienceField-programmable gate arrayMacroeconomicsComputer hardwareEconomicsThermodynamicsClimate variability and modelsMeteorological Phenomena and SimulationsTropical and Extratropical Cyclones Research
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