Analysis: Rapid intensification means storms are intensifying faster, hitting harder and giving people less time to prepare or escape
By Alexander Baker, University of Reading and Liz Stephens, University of Reading
Hurricane Melissa tore through the Caribbean, bringing record-breaking wind and torrential rain to Jamaica – the island's first ever category 5 landfall. What makes Melissa so alarming isn't just its size and strength, but the speed with which it became so powerful. In a single day, it exploded from a moderate storm into a major hurricane with 170mph winds.
Scientists call this "rapid intensification". As the planet warms, this violent strengthening is becoming more common. These storms are especially dangerous as they often catch people off guard. That's because forecasting rapid intensification, although improving, remains a huge challenge.
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From RTÉ Radio 1's Today with Claire Byrne, eye-witness accounts as Hurricane Melissa ravages Jamaica
Better forecasting will depend on more detailed monitoring of a hurricane's inner core – especially close to the eyewall, where the strongest winds occur – and on higher-resolution computer models that can better capture a storm's complex structure. New machine learning (AI) techniques may help but are largely untested.
As things stand, rapidly intensifying storms mean that communities are often provided little warning to evacuate, and government agencies may have little time to make preparations, such as opening evacuation shelters or preparing critical infrastructure.
That's what happened with Hurricane Otis in Mexico in 2023 and Typhoon Rai in the Philippines in 2021. Both rapidly intensified shortly before landfall, and hundreds of people died because they were unable to reach safety.
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From RTÉ Radio 1's Morning Ireland, impact of Melissa will be "felt for a very long time"
Fortunately, the chance of Melissa reaching a category 5 hurricane was forecast sometime before it made landfall, helped by the storm moving very slowly towards Jamaica.
Perfect storms
A particular set of conditions are required to fuel rapid intensification: high humidity in the atmosphere, low wind shear (the change in wind speed with height), and warm sea-surface temperatures. Recent research suggests that since the early 1980s, warmer seas and a more moist atmosphere means these conditions are becoming more common. These trends can't be explained by natural variability and it seems human-caused climate change is significantly increasing the probability of rapid intensification.
In the case of Melissa, the fingerprints of climate change are visible on many of the factors that made it such a devastating storm. Sea-surface temperatures in the region are currently more than a degree above normal – conditions that may be 500 to 800 times more likely due to climate change. Warmer seas provide extra energy for a storm's intensification. Rising sea levels also mean storm surges and coastal flooding are more severe.
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From RTÉ Radio 1's Morning Ireland, Hurricane Melissa leaves trail of destruction across Jamaica
Scientists are confident that rainfall is increasing as a result of climate change, because a warmer atmosphere holds more moisture, a trend evident in the North Atlantic. Melissa is travelling slowly, which leads to higher rainfall totals over land. Forecasts predicted mountainous regions of Jamaica could receive up to a metre of rainfall, raising the risk of severe flooding and landslides.
Some studies even suggest climate change is slowing down the speed of cyclones themselves (the rate at which the whole storm moves). This would mean they linger over land and dump more rain. Simulations by a colleague of ours at the University of Reading confirmed that past hurricanes striking Jamaica would produce more rainfall in today's warmer climate.
The growing tendency for storms to rapidly intensify is helping more of them to reach the strongest categories, and that can be deadly when this surge in strength is not well forecasted. As the planet warms, this risk will only grow. That makes it crucial for scientists to improve hurricane monitoring and forecast models, as well as for emergency responders to prepare for the scenario of an intense hurricane arriving with little time to prepare.
Hurricane Melissa has brought the risks into sharp focus: storms are intensifying faster, hitting harder and giving people less time to escape.
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Alexander Baker is a Research Scientist at the National Centre for Atmospheric Science at the University of Reading. Liz Stephens is Professor of Climate Risks and Resilience at the University of Reading. This article was originally published by The Conversation.
The views expressed here are those of the author and do not represent or reflect the views of RTÉ
