Litcius/Paper detail

A dynamical systems characterization of atmospheric jet regimes

Gabriele Messori, Nili Harnik, Erica Madonna, Orli Lachmy, Davide Faranda

2021Earth System Dynamics27 citationsDOIOpen Access PDF

Abstract

Abstract. Atmospheric jet streams are typically separated into primarily “eddy-driven” (or polar-front) jets and primarily “thermally driven” (or subtropical) jets. Some regions also display “merged” jets, resulting from the (quasi-)collocation of the regions of eddy generation with the subtropical jet. The different locations and driving mechanisms of these jets arise from very different underlying mechanisms and result in very different jet characteristics. Here, we link the current understanding of dynamical jet maintenance mechanisms, mostly arising from conceptual or idealized models, to the phenomena observed in reanalysis data. We specifically focus on developing a unitary analysis framework grounded in dynamical systems theory, which may be applied to both idealized models and reanalysis, as well as allowing for direct intercomparison. Our results illustrate the effectiveness of dynamical systems indicators to diagnose jet regimes.

Topics & Concepts

Jet (fluid)Jet streamPhysicsDynamical systems theoryPolar frontMechanicsStatistical physicsMeteorologyQuantum mechanicsClimate variability and modelsMeteorological Phenomena and SimulationsTropical and Extratropical Cyclones Research