Hurricane Beryl was the last Atlantic storm to rapidly intensify. It quickly developed from a tropical storm into the strongest June Atlantic hurricane on record. meet the Grenadine Islands with wind speeds of 240 km/h and a destructive storm surge on July 1, 2024, after which intensified further into the basin first Category 5 storm on record.
Beryl was still a robust Category 4 hurricane on July 3, when its eye wall roamed the coast of Jamaica and was heading towards the Cayman Islands. A hurricane warning was in effect for big parts of the Mexican Yucatan Peninsula.
The damage brought on by Beryl especially on Carriacou and Petite Martinique, was extensivesaid Grenada's Prime Minister Dickon Mitchell at a press conference. “Within half an hour, Carriacou was razed to the ground.”
Beryl's strength and rapid intensification were unusual for a storm so early within the season. This yr it is especially alarming as meteorologists predicted a exceptionally energetic hurricane season within the Atlantic.
Rapidly intensifying storms can put coastal communities at great risk and leave lasting scars. In 2022, for instance, Hurricane Ian devastated parts of Florida after the storm rapidly intensified. To today, residents are still recovering from the consequences.
What causes rapid intensification of hurricanes, and has climate change made rapid intensification more likely?
I research hurricanesincluding their formation and their intensification, and am a part of a U.S. Office of Naval Research initiative taking a look at rapid intensification. I also work with scientists on the National Atmospheric and Oceanic Administration to research data collected by reconnaissance aircraft that fly into hurricanes. Here's what we're learning.
How did Hurricane Beryl intensify so quickly?
Rapid intensification occurs when a hurricane's intensity increases by at the very least 35 miles per hour over a 24-hour period. Beryl far exceeded that threshold, increasing from tropical storm strength (70 miles per hour) to major hurricane strength (130 miles per hour) over a 24-hour period.
A Key ingredient for rapid intensification is warm water. The water temperature should be above 27 degrees Celsius (80 degrees Fahrenheit) and extend to greater than 45 meters below the surface. This reservoir of warm water provides the energy needed to drive a hurricane.
Scientists measure this energy reservoir as the warmth content of the ocean. The heat content of the ocean before Beryl was already extraordinarily high in comparison with previous years. The heat content of the oceans within the tropical Atlantic doesn’t normally reach such high levels until early September, when the hurricane season typically reaches its peak.
Beryl is a storm more typical of the height of hurricane season than of June, and its rapid intensification and strength are likely as a consequence of the unusually warm waters.
In addition to the high heat content of the oceans, studies have shown that other environmental aspects typically in order that rapid intensification can happen. These include:
My research has shown that when this mix of things is present, a hurricane more efficient use of energy It gathers from the ocean to power its winds, relatively than having to fight against drier, cooler air moving in from the storm's surroundings. The process known as ventilation.
At the identical time, more air is drawn inward toward the middle, rapidly increasing the strength of the vortex, much like how a figure skater pulls their arms inward to create spins. Rapid amplification is comparable to a figure skater pulling each arms quickly and shut to the body.
Does climate change affect the likelihood of rapid intensification?
As the oceans warm with climate change and the ocean heat content increases, it is affordable to assume that rapid intensification may turn out to be more common. There is evidence that rapid intensification of storms has turn out to be more common within the Atlantic.
In addition, the intensity peaks of hurricanes have increased on average by 25 to 30% when comparing hurricane data between 1971–1990 and 2001–2020. This has led to faster intensification events akin to Beryl.
This faster intensification is as a consequence of environmental aspects: warm waters, low vertical wind shear, and a moist atmosphere that occur more ceaselessly, giving hurricanes more opportunity to accentuate rapidly.
The excellent news for anyone living in a region liable to hurricanes is that Hurricane forecast models are improving in predicting rapid intensification upfront, so that they may give residents and emergency managers more advance warning of potential threats. NOAA’s latest hurricane model, the hurricane evaluation and forecast systemguarantees further improvement in hurricane forecasts, and artificial intelligence could Providing additional tools to predict rapid intensification.
This article, originally published on July 2, 2024, has been updated with Beryl's arrival in Jamaica.
image credit : theconversation.com
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