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The Factors Behind Hurricane Milton’s Powerful Tornadoes

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overview

  • Hurricane Milton’s tornado outbreak in Florida was the leading cause of death and damage from the storm.
  • On Wednesday, South Florida experienced one of the strongest tornadoes on record. Overall this year, the United States has seen an unusually high number of violent tornadoes associated with hurricanes.
  • Early research shows that in a warmer world, tropical cyclones can produce more tornadoes.

Hurricane Milton wreaked havoc earlier than expected before making landfall this week, as supercell thunderstorms featuring rotating updrafts and the potential to spawn tornadoes raced across the state.

The resulting twister caused the National Weather Service to issue 126 tornado warnings, and the agency The Storm Prediction Center has filed 45 preliminary reports of tornadoes..

In St. Lucie County, a tornado destroyed a retirement community and killed five people, accounting for nearly one-third of the 17 deaths reported so far in the aftermath of the hurricane.

As Florida begins the long process of recovering and recovering from Hurricane Milton, tornado outbreaks are causing deaths and damage in a state accustomed to tropical storms but less accustomed to powerful twisters. has emerged as the main cause.

One of the strongest tornadoes in South Florida history occurred on a day that will likely go down in Florida history as one of the worst tornado outbreaks ever observed in Florida during a cyclone.

Swirling winds reached 160 miles per hour in Palm Beach Gardens, tearing apart concrete walls and tearing off large sections of roofs from new homes. Breaking news from the National Weather Service.

“This is the first EF-3 on record for the South Florida area south of Lake Okeechobee,” said Donal Harrigan, NWS meteorologist in Miami. EF-3 refers to tornadoes with estimated wind speeds of 136 to 160 miles per hour (EF stands for Enhanced Fujita Scale; Started operation at the National Weather Service in 2007).

Harrigan added that several other observed twisters may be rated EF-3 after damage assessment.

“You can probably count on one hand how many EF-3s have been in this state historically, potentially multiple times a day,” he said.

Overall this year, the United States has seen an unusually high number of powerful tornadoes associated with hurricanes.

Tornadoes are common when hurricanes make landfall, but most are on the weaker end of the spectrum. Less than 1% of tornadoes associated with tropical systems that make landfall are rated EF-3 or higher. By contrast, four out of five hurricanes that made landfall in the United States this year produced tornadoes with EF-3 strength.

From 1995 to 2023, only five tornadoes caused by tropical cyclones received such high ratings.

A home is destroyed in Lakewood Park, Florida, on Thursday, a day after a tornado struck the area.Giorgio Vieira/AFP – Getty Images

Early research suggests that tropical cyclones could produce more tornadoes in a warmer world. In a study published in June, researchers modeled hurricanes Ivan, Katrina, Rita, and Harvey in a warmer future climate. Their results show that the number of potential tornado storms caused by a tropical cyclone is 56% to 299% increase by mid-century Assuming the pace of fossil fuel pollution remains steady.

It is not yet known whether climate change played a role in the twisters associated with this year’s storms. But Bill Gallus, an author of the June study and a professor of meteorology at Iowa State University, said “it was really unusual that conditions in South Florida were this volatile” during Milton.

A situation is considered unstable if, due to differences in density and temperature, a mass of air rises or falls rapidly, which means that thunderstorms can form.

“When I looked at the instability graph, I was shocked. It was about as high as you’d see in Kansas chasing storms,” ​​Gallus said. “Hurricanes have produced more tornadoes, but Florida alone has never produced so many tornadoes.”

He added that this type of instability is “expected to become more common” in a warming world.

One reason Milton produced so many tornadoes is that hurricane thunderstorms traveled far from the center.

“With the first tornado, it looked like a certain band of showers and storms from Milton were actually erupting well in front of the hurricane,” Gallus said.

The outer storm belt eventually became isolated and ended without interference from other systems. Those were thunderstorms that produced tornadoes. This is a reminder that hurricanes can become a threat long before landfall and even far from the storm’s center, experts said.

Another important factor for Milton’s tornadoes is heat. The hurricane approached the Florida coast in the afternoon and encountered particularly warm conditions, as the thunderstorms were quite far away at the edge of the hurricane, in addition to wind shear (changes in wind direction and speed with altitude). This allowed it to grow stronger than a typical hurricane setup.

“There was plenty of time to warm up the atmosphere,” Gallus said. “Most hurricanes get very little heat from the sun. Tornadoes form under heavy rain and cover.”

In hurricanes like Milton, where winds blow counterclockwise, tornadoes tend to form on the leading edge of the storm and to its right, sometimes called the dirty side. This region is also the windiest.

How it unfolded during Milton, Gallus said, noting that the twister “started in the exact place you see most tornadoes form.”

But in Milton’s case, he noted, the tornadoes were particularly concentrated.

Because Milton crossed the Florida peninsula for a short distance, “the tornado area was small, and I think it was one of the most concentrated tornadoes ever produced by a hurricane,” Gallus said.

More research is needed into exactly how climate change will affect tornadoes produced by hurricanes. However, the impact of global warming on extreme rainfall is more certain and clear.

A report released Friday by the World Weather Attribution Project, a consortium of scientists considered an authority on analyzing extreme weather events and determining the impact of climate change on specific events, says: It turned out. Rainfall amounts for single-day events like Milton are currently about 20% to 30% higher due to climate change.. The analysis found that Milton’s wind speeds were likely 10% stronger due to climate change.

The researchers also found that Hurricane Helen was wetter and windier because of climate change. Separate preliminary reports say climate change is likely to increase Helen’s rainfall by up to 50% over three days in some of the worst-hit areas.

Source: www.nbcnews.com

Science uncovers the factors behind Hurricane Milton’s intense strength

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overview

  • Hurricane Milton strengthened at the fastest rate on record.
  • The storm's wind speeds exceeded 175 miles per hour, unprecedented for an October hurricane.
  • Record-breaking hydrothermal waters in the Gulf of Mexico helped intensify Milton, increasing its size through a process known as eyewall displacement.

Hurricane Milton has been a surprise at almost every turn.

What began as a small, well-scarred hurricane has grown into a vast monster that has grown in strength at the fastest rate in recorded history. The storm could cause dangerous flooding across parts of Florida's west and east coasts, particularly putting the flood-prone areas of Tampa Bay, home to more than 3 million people, at risk.

As the storm developed, record warmth in the Gulf of Mexico helped the storm intensify. He then underwent an eyewall replacement process to increase in size.

Explain how Milton developed into such a serious threat.

Pacific influence

Hurricanes approaching the United States typically follow similar paths. Tropical cyclones form off the west coast of Africa, gain strength as they cross the Atlantic Ocean and enter the warm waters of the Caribbean Sea.

But part of Milton's origin story lies in the eastern Pacific. This hurricane formed when the remnants of a tropical cyclone in the Pacific Ocean pushed eastward across the Yucatan Peninsula and encountered a stationary front in the Gulf of Mexico. The most recent storm to hit Florida after forming in the same area, Mexico's Bay of Campeche, occurred in 1867.

Follow live updates about Hurricane Milton

Chris Slocum, a physical scientist at the National Oceanic and Atmospheric Administration's Satellite Applications Center, said that when the tropical storm entered the Gulf Coast, it created “a little bit of a vortex, some rotation” in the thunderstorm system there.

Milton was then organized and kept away from other star systems.

“By being isolated from other thunderstorms, the pressure increases and the winds increase,” Slocum said. Milton began to draw air toward its center, drawing energy from the warm ocean.

small but strong

Milton started out as a very small storm, which conserved its angular momentum and rotated tightly and rapidly around a narrow eye.

The Gulf Coast experienced record high ocean temperatures and moist, warm air. These are the necessary elements to strengthen your power. On Monday, the central pressure in Milton's core decreased at a constant rate. A scientist was described as “crazy” As Milton grows stronger. The value of central pressure is closely related to storm strength and wind speed.

“This is absolutely terrifying,” NBC South Florida hurricane expert John Morales said, choking on the air as he talked about the importance of the pressure drop.

Milton's wind speed is 92 mph in about 24 hoursAccording to the nonprofit research organization Climate Central. This far exceeded a milestone that scientists consider rapid intensity: an increase of 35 mph in 24 hours.

“It's unusual that it went from a tropical storm to a Category 5 hurricane in less than two days,” said Kartik Balaguru, a climate scientist at the Pacific Northwest National Laboratory.

Jonathan Lin, an atmospheric scientist at Cornell University who specializes in hurricane forecasting and modeling, called Milton “one of the fastest-strengthening hurricanes we've ever seen in the Atlantic.” There is.

The hurricane's wind speeds exceeded 175 miles per hour, unprecedented for an October storm. Milton is the strongest Gulf hurricane since Hurricane Rita in 2005.

new eyewall

In the Northern Hemisphere, hurricanes wrap counterclockwise around a central, mostly cloudless eye.

Bands of rain began falling outside of Milton Monday night into Tuesday. These storms merged to form a second ring, creating a replacement eyewall and tripling the radius where maximum wind speeds were recorded, Slocum said.

This phenomenon, known as eyewall displacement, typically causes storms to widen but reduce wind speeds somewhat, and it happened to Milton. As the storm develops, it may occur several times. Once this process is complete, and conditions permit, the hurricane may begin to gain strength again.

“You can think of it as molting. Once it molts, it can intensify again. That's exactly what we saw in Milton,” Lin said.

wobble

According to the National Hurricane Center, Milton “wobbled” Tuesday afternoon, changing its expected path and moving its expected landfall south.

Wobble results from instability due to complex mechanics inside the eyeball.

Lin explained the dynamics of a hurricane by comparing it to a top or a dreidel.

“Sometimes you'll see the top spinning. If you push it a little bit or give it a little push, it wobbles a little bit and then it starts spinning again,” Lin said. “It redirects itself.”

Large shakes can change the course of the storm and determine which locations receive the brunt of the hurricane.

Forecasters are expecting storm surge of up to 13 feet. If the storm were to change course slightly to the south, it could avoid the worst of the flooding in especially vulnerable Tampa Bay. In 2017, Hurricane Irma changed course to the east, helping Tampa Bay avoid a predicted storm surge of more than 12 feet.

Once the storm reaches the coast, areas south of Milton's Eye should experience strong wind gusts, pushing water onto shore and resulting in storm surge.

That's because of the angle at which the storm approaches the Florida peninsula and the counterclockwise rotation of the winds around its center.

what happens next

Milton weakened during her final approach to the Florida Peninsula. The main reason for this is that they encountered vertical wind shear, which refers to changes in wind speed and direction in the upper layers of the atmosphere.

But Lin said, “That doesn't make it any less dangerous.”

Even with weaker winds, Milton is expected to remain a major hurricane until it makes landfall Wednesday night.

After landing, it is expected to cross the peninsula and head out to sea. The time on land robs the storm of the energy it draws from the ocean's heat, and the storm will weaken rapidly, just as the coma slows down, Lin said.

break the eerie silence

A new report from the World Weather Attribution Group on Hurricane Helen, which made landfall in Florida on September 26, shows that climate change has caused the storm's wind speeds to increase by 11% and total precipitation to increase by approximately It was found that there was a high possibility of an increase of 10%.

Researchers said they expect Milton to behave similarly, but even worse because of climate change.

Warmer-than-normal ocean conditions in the North Atlantic and Gulf of Mexico and the emergence of a hurricane-related La Niña weather pattern led forecasters to predict a very active hurricane season this spring.

But even in mid-September, the typical peak of hurricane activity, the season remained eerily quiet, leaving researchers perplexed, despite the ocean heat that fuels hurricanes. , making us wonder if their positive predictions were wrong.

The eerie calm was broken in late September as Hurricanes Helen and Milton roared into view. If Milton makes landfall, it will be the second-highest number of hurricane landfalls in a year on the Gulf Coast.

“This makes 2024 the second-highest number of Gulf hurricane landfalls on record, along with 2005 and 2020, after 1886,” meteorologist Philip Klotzbach said. I wrote to X.

Source: www.nbcnews.com