Latest news with #JanaHouser
Yahoo
21-05-2025
- Climate
- Yahoo
Why the 2025 Tornado Season Has Been So Destructive
Nearly 900 tornadoes have torn through more than 30 states so far this year, killing dozens of people, shredding buildings and landscapes across big chunks of the Eastern U.S., and costing billions. The oddly fickle and precise mix of atmospheric ingredients needed to generate tornadoes just happens to have occurred over and over again since mid-March—and the season isn't over yet. 'In order to get a tornado, you need to have a thunderstorm that's capable of producing a tornado,' says Jana Houser, a tornado researcher at the Ohio State University. Most often, these are what meteorologists call 'supercell' thunderstorms, which feature a circulation pattern called a mesocyclone. Supercell formation requires a set of conditions that make the atmosphere unstable, and these start with warm, moist air at the surface and cold, dry air above. The instability comes from warmer air's greater buoyancy, which makes it rise upward. And this mix needs yet another specific ingredient, wind shear, 'where winds change speed and direction as you go up with height' in the atmosphere, Houser says. This can create sort of a 'tube' of horizontally rotating air. Next, the nascent twister needs an updraft, or upward-moving air, which tightens and speeds up the rotating air, taking it 'from spinning like a bike tire' to 'spinning like a top.' [Sign up for Today in Science, a free daily newsletter] All of these conditions are necessary—but they're still not always enough. 'Most supercells don't even actually produce tornadoes in their lifetime,' Houser says. The exact mechanics of tornado formation aren't yet fully understood, but essentially, air rotation at the ground needs to meet a strong updraft aloft; this pulls the rotation in like a figure skater pulling in their arms, as Houser puts it. Tornadoes can—and do—happen wherever the right conditions are present, from Argentina to Italy to Bangladesh. But the U.S. is by far the leader in the average annual number of these storms. North America's geography naturally promotes a crucial collision of air masses: juicy air streams northward from the bathtub warmth of the Gulf of Mexico, while cool, dry winds rush eastward over the Rockies. The air masses meet over the center of the country, which is how the region centered around northeastern Texas and Oklahoma came to be called Tornado Alley. 'If you were to design a place that would get repeated severe storms, you would build something like the central U.S.,' says Rich Thompson, chief of forecast operations for the National Weather Service's Storm Prediction Center. But over the past decade or so, that tornado bull's-eye has changed a bit. A 'new Tornado Alley' has emerged about 400 or 500 miles to the east, in part because moist Gulf air is reaching farther east than in the past. 'Spring tends to be the peak because it's a transitional season,' Houser says. Coming out of winter, there is still abundant cold air at northern latitudes and aloft, and at the same time, the sun is shining much more, heating up the surface air to promote instability. Fall is also a transitional season, but the air aloft remains generally warmer for some time after summer. Tornado activity doesn't tend to pick up again until later in the fall, when the atmosphere has cooled down again. The local peaks in tornado occurrence tend to move northward as spring rolls into the summer: the Gulf Coast peaks earlier in the spring, the Southern Plains in May and June, and the Northern Plains and upper Midwest in June and July. By mid-May the U.S. has had an estimated 886 tornadoes. 'We're on the upper end of what is typical' at this point, Thompson says. Until this month, the most active periods this year were in mid-March and early April. 'Those were the two that really pushed us above what is typical,' he adds. The meanderings of the jet stream—a narrow band of strong winds high in the atmosphere—are part of what determines how active a season becomes. The jet stream 'really dictates what kinds of weather we end up getting at the surface,' Houser says. It influences the paths storms take, and it forms the boundaries between warmer and cooler air masses. In the case of this spring, 'we just have periodic high-energy systems that are moving through,' Houser says, and they have been very effective at producing severe weather when they occur. 'It's just a matter of getting the ingredients to show up and getting the storms to take advantage of them,' Thompson says.
Yahoo
21-05-2025
- Climate
- Yahoo
NWS and NOAA cuts impacting staffing, forecasts, research
DAYTON, Ohio (WDTN) – NOAA has been under the gun in 2025, with employees taking buyout options and probationary employees let go. In a draft leaked to our partners at The Hill, NOAA can expect to be cut by 27 percent in 2026, and eliminate all funding for weather, climate and ocean laboratories, cooperative institutes, regional climate data and climate research. 'Cutting out these infrastructural pieces, we're essentially pulling the rug out from underneath our entire capacity to really understand what the atmosphere is doing and to make any kind of progress,' said Dr. Jana Houser, Ohio State University associate professor of meteorology and atmospheric sciences. 'And not only that, we're actually setting ourselves up to go backwards because we have to cut observations, and observations are the fuel to what drive our forecast models.' Houser says this cut to funding will be felt by every part of weather forecasting. 'This is really ultimately catastrophic to our entire infrastructure for everything atmospheric science related, from climate change to your everyday weather forecasts that you get when you turn on whatever your favorite app is, to flood monitoring, flood prediction to ocean monitoring, etc.,' said Houser. Those cuts wouldn't just impact the future of weather research, but also the quality of forecast that goes out. 'These research agencies are the ones that are doing the ground work to make numerical modeling better, to improve our scientific understanding of the way the Earth atmosphere system works,' said Houser. The National Weather Service office located in Jackson, Kentucky has not been fully operational for over a week, and these closures could continue to grow as a hiring freeze is in place. This will lead to other offices picking up the slack, potentially leading to more missed severe storms. 'The fallout is that you have dropped warnings. You have people warning the wrong storms. You have miscommunication and misunderstanding between what's happening on the ground and what's happening in the forecast office. You have spotter reports coming in and you don't have enough people to figure out like, is that report for Storm X or Storm Y?' said Houser. According to NBC News, the NWS Wilmington office, who forecasts for the Miami Valley, has been without their boss since the Meteorologist in Charge announced his retirement on LinkedIn in February. Copyright 2025 Nexstar Media, Inc. All rights reserved. This material may not be published, broadcast, rewritten, or redistributed.
