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Abnormally warm water helped Helene rapidly intensify and suck up moisture

Waves from the Gulf of Mexico push up against the shore as Hurricane Helene churns offshore on September 26, 2024 in St. Pete Beach, Florida.
Joe Raedle
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Waves from the Gulf of Mexico push up against the shore as Hurricane Helene churns offshore on September 26, 2024 in St. Pete Beach, Florida.

Follow NPR's live updates for the latest on the impact of Helene.


In the two days before it hit Florida, Hurricane Helene grew from a relatively weak tropical storm into a major Category 4 hurricane.

When a storm gets powerful very quickly like that, scientists call it rapid intensification. Such rapid intensification is relatively normal for major hurricanes that form in the Atlantic, according to federal hurricane data. For example, every Category 5 hurricane that hit the United States in the last century was a tropical storm three days earlier, according to Ken Graham, the director of the National Weather Service.

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However, there is some evidence that as the planet heats up due to human-caused climate change, rapid storm intensification may also be growing more frequent. One reason is that storms are forming over warmer ocean water than in the past, because oceans absorb a majority of the extra heat that’s trapped on Earth by planet-warming pollution.

Hot ocean water is fuel for hurricanes and helps them gain strength.

The water in the Gulf of Mexico when Helene was strengthening was about 85 degrees Fahrenheit — like a warm bath.

“The major ingredient that is present in virtually all of the rapidly intensifying events is an incredibly warm ocean surface,” explains Jill Trepanier, a hurricane climatologist at Louisiana State University.

But, while many climate models suggest that storms will gain strength more quickly as the Earth heats up, it’s still unclear whether that trend is already underway. It’s an active area of research.

Abnormally warm ocean water also causes storms like Helene to suck up huge amounts of moisture as they move toward land. That moisture then falls as rain. Past storms that caused catastrophic flooding, like Hurricane Harvey in 2017 and Hurricane Florence in 2018, dropped more rain than they would have without human-caused climate change, scientists found.


This story originally appeared as part of NPR's live coverage of Hurricane Helene, September 27, 2024.

Copyright 2024 NPR

Rebecca Hersher (she/her) is a reporter on NPR's Science Desk, where she reports on outbreaks, natural disasters, and environmental and health research. Since coming to NPR in 2011, she has covered the Ebola outbreak in West Africa, embedded with the Afghan army after the American combat mission ended, and reported on floods and hurricanes in the U.S. She's also reported on research about puppies. Before her work on the Science Desk, she was a producer for NPR's Weekend All Things Considered in Los Angeles.