Litcius/Paper detail

Isotopic variability in tropical cyclone precipitation is controlled by Rayleigh distillation and cloud microphysics

Chijun Sun, Lijun Tian, Timothy M. Shanahan, J. W. Partin, Yongli Gao, Natasha Piatrunia, Jay L. Banner

2022Communications Earth & Environment45 citationsDOIOpen Access PDF

Abstract

Abstract Tropical cyclones produce rainfall with extremely negative isotope values (δ 18 O and δ 2 H), but the controls on isotopic fractionation during tropical cyclones are poorly understood. Here we studied the isotopic composition of rainfall at sites across central Texas during Hurricane Harvey (2017) to better understand these processes. Rainfall δ 18 O trend towards more negative values as a result of Rayleigh distillation of precipitation-generating airmasses as they travel towards the center of the storm. Superimposed on these gradual changes are abrupt isotopic shifts with exceptionally low deuterium excess values. These appear to be controlled by microphysical processes associated with the passage of spiral rainbands over the sampling locations. Isotope-enabled climate modeling suggests that it may be possible to identify the signature of tropical cyclones from annually resolved isotopic proxy records, but will depend on the size of the storm and the proximity of the site to the core of the storm system.

Topics & Concepts

Tropical cycloneStormEnvironmental scienceClimatologyPrecipitationAtmospheric sciencesExtratropical cycloneSnowAtlantic hurricaneTropical cyclone rainfall forecastingCyclone (programming language)GeologyMeteorologyOceanographyGeographyComputer hardwareField-programmable gate arrayComputer scienceTropical and Extratropical Cyclones ResearchClimate variability and modelsIsotope Analysis in Ecology