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Rapid intensification of tropical cyclones in the Gulf of Mexico is more likely during marine heatwaves

Soheil Radfar, Hamed Moftakhari, Hamid Moradkhani

2024Communications Earth & Environment43 citationsDOIOpen Access PDF

Abstract

Tropical cyclones can rapidly intensify under favorable oceanic and atmospheric conditions. This phenomenon is complex and difficult to predict, making it a serious challenge for coastal communities. A key contributing factor to the intensification process is the presence of prolonged high sea surface temperatures, also known as marine heatwaves. However, the extent to which marine heatwaves contribute to the potential of rapid intensification events is not yet fully explored. Here, we conduct a probabilistic analysis to assess how the likelihood of rapid intensification changes during marine heatwaves in the Gulf of Mexico and northwestern Caribbean Sea. Approximately 70% of hurricanes that formed between 1950 and 2022 were influenced by marine heatwaves. Notably, rapid intensification is, on average, 50% more likely during marine heatwaves. As marine heatwaves are on the increase due to climate change, our findings indicate that more frequent rapid intensification events can be expected in the warming climate. Prolonged periods of high sea surface temperatures can substantially increase the probability of rapid intensification of tropical cyclones in the Gulf of Mexico and the northwestern Caribbean Sea, according to a probabilistic analysis.

Topics & Concepts

Tropical cycloneClimatologyAfrican easterly jetOceanographyAtlantic hurricaneGeographyTropical marine climateEnvironmental scienceTropical AtlanticTropical waveMeteorologyGeologySea surface temperatureTropical and Extratropical Cyclones ResearchClimate variability and modelsOcean Waves and Remote Sensing
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