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Projected increase in the frequency of extremely active Atlantic hurricane seasons

Hosmay Lopez, Sang‐Ki Lee, Robert West, Dongmin Kim, Gregory R. Foltz, Ghassan J. Alaka, Hiroyuki Murakami

2024Science Advances17 citationsDOIOpen Access PDF

Abstract

Future changes to the year-to-year swings between active and inactive North Atlantic tropical cyclone (TC) seasons have received little attention, yet may have great societal implications in areas prone to hurricane landfalls. This work investigates past and future changes in North Atlantic TC activity, focusing on interannual variability and evaluating the contributions from anthropogenic forcing. We show that interannual variability of Atlantic TC activity has already increased, evidenced by an increase in the occurrence of both extremely active and inactive TC seasons. TC-resolving general circulation models project a 36% increase in the variance of North Atlantic TC activity, measured by accumulated cyclone energy, by the middle of the 21st century. These changes are the result of increased variability in vertical wind shear and atmospheric stability, in response to enhanced Pacific-to-Atlantic interbasin sea surface temperature variations. Robust anthropogenic-forced intensification in the variability of Atlantic TC activity will continue in the future, with important implications for emergency planning and societal preparedness.

Topics & Concepts

Atlantic hurricaneTropical cycloneAtlantic multidecadal oscillationClimatologyEnvironmental scienceAtlantic Equatorial modeTropical AtlanticOceanographyForcing (mathematics)Sea surface temperatureGeologyTropical and Extratropical Cyclones ResearchClimate variability and modelsOcean Waves and Remote Sensing
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