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A Three-Dimensional Perspective on Extratropical Cyclone Impacts

Acacia Pepler, Andrew Dowdy

2020Journal of Climate29 citationsDOI

Abstract

Abstract Cyclones can be identified from gridded pressure data at different levels of the troposphere, with vertical structure known to influence the temporal development and impacts of midlatitude cyclones. However, studies of midlatitude cyclones typically focus on cyclones identified at a single atmospheric level. This paper examines how the frequency of vertically organized or deep cyclones varies around the world, with a focus on southeastern Australia. About 50% of global cyclones identified from mean sea level pressure show a coherent vertical structure extending to at least 500 hPa, based on ERA-Interim reanalysis data, and shallow cyclones are most common in the global midlatitudes. Using a combination of reanalysis data and satellite-based rainfall and lightning, we show that in southeast Australia deep cyclones have higher intensities, longer durations, and more severe winds and rainfall than either shallow surface cyclones or upper-level cyclones with no surface low, motivating a three-dimensional approach for future cyclone analyses.

Topics & Concepts

Extratropical cycloneMiddle latitudesCyclone (programming language)ClimatologyCyclogenesisEnvironmental scienceTroposphereTropical cyclone scalesGeologyMeteorologyGeographyComputer hardwareComputer scienceField-programmable gate arrayClimate variability and modelsTropical and Extratropical Cyclones ResearchMeteorological Phenomena and Simulations
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