A new study co-led by Professor Dazhi XI, climatologist from the Department of Earth and Planetary Sciences at The University of Hong Kong (HKU), and Zheng-Hang FU, a PhD student from Fudan University reveals that over the past decades, clustered tropical cyclone—storms that occur in close succession—are becoming less frequent in the Northwestern Pacific, including Hong Kong, Japan, and the Philippines, while becoming more common in the North Atlantic, affecting regions such as the U.S. East Coast and the Caribbean. The study, titled “Shifting Hotspot of Tropical Cyclone Clusters in a Warming Climate,” was recently published in Nature Climate Change .
Tropical cyclones, commonly known as typhoons or hurricanes, do not always strike alone. Sometimes, they form in clusters—two or more storms developing simultaneously within the same ocean basin. This phenomenon is not rare—historically, only 40% of tropical cyclones appeared alone. For example, in September 2024, typhoon Bebinca and tropical storm Pulasan made landfall in Shanghai, within three days of each other, disrupting the city’s infrastructure before recovery efforts could fully begin.
These cluster events can cause disproportionate damage, as affected regions have limited time to recover between successive storms. Therefore, understanding the mechanisms and trends behind these events is essential for coastal risk management.
“We wanted to understand whether these clustering patterns are simply coincidental or whether something deeper is going on,” said Professor Dazhi Xi, climatologist at HKU Earth and Planetary Sciences and co-author of the study.
“We developed a probabilistic framework to investigate whether the observed changes in cyclone clusters could be explained by random factors alone. If clusters simply form by chance, their occurrence should depend only on how often storms form, how long they last, and when they occur during the season. So, we built a model based on these three factors to simulate storm clusters over the recent decade, giving us a baseline to compare against actual observations.”
Key Findings from the Study
Action on Storm-Ready Infrastructure
The research implies a growing threat of back-to-back tropical cyclones along North Atlantic coastlines. To address these growing risks, both coastal infrastructure and emergency response systems must be strengthened. This includes reinforcing the drainage system, improving the resilience of the power grid, and enhancing the reliability of water supply networks to withstand the hazards of multiple storms. Emergency response teams must also be better prepared to manage multiple storm attacks in quick succession.
The Journal paper can be accessed from here: https://www.nature.com/articles/s41558-025-02397-9
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Nature Climate Change
Observational study
Not applicable
Shifting hotspot of tropical cyclone clusters in a warming climate
31-Jul-2025