Litcius/Paper detail

Tropical Cyclone Frequency Under Varying SSTs in Aquaplanet Simulations

Adam C. Burnett, Aditi Sheshadri, Levi G. Silvers, Thomas Robinson

2021Geophysical Research Letters23 citationsDOI

Abstract

Abstract Global tropical cyclone (TC) frequency is investigated in a 50‐km‐resolution aquaplanet model forced by zonally symmetric sea surface temperature (SST). TC frequency per unit area is found to be proportional to the Coriolis parameter at the intertropical convergence zone (ITCZ), as defined by the latitude of maximum precipitation. As the latitude of maximum SST is shifted northward from the equator, the precipitation maximum moves northward and TC frequency increases. When the SST maximum is shifted northward past 25°N, the precipitation maximum remains between 15°N and 20°N, and TC frequency per unit area is approximately constant. When applied to observed precipitation and SST data, the same scaling captures a substantial fraction of observed TCs. Results suggest that future changes in TC activity will be modulated by changes in the large‐scale circulation, and in particular that the ITCZ location is an important determinant of the number of TCs.

Topics & Concepts

Intertropical Convergence ZoneEquatorSea surface temperatureClimatologyPrecipitationTropical cycloneEnvironmental scienceLatitudeAtmospheric sciencesRainbandCyclone (programming language)GeologyMeteorologyPhysicsGeodesyComputer hardwareField-programmable gate arrayComputer scienceTropical and Extratropical Cyclones ResearchClimate variability and modelsOcean Waves and Remote Sensing