Short Wave - Is it getting windier?
Episode Date: May 26, 2026Is it getting windier? Long-time listener Barry Zalph thinks it is, at least in Louisville. And he’s not the only one. Redditors and local reporters have noticed a recent uptick in the region’s wi...ndstorms, too. But does that point to any larger trends in windiness? And if so, what could be causing it? We talked to meteorologist and extreme weather specialist Scott Gunter to find out. Plus, we dig into whether Tornado Alley is shifting into Kentucky as the climate warms. This episode is part of Nature Quest, our monthly listener-driven segment about climate and the environment. Have a question for us? Send a voice memo to shortwave@npr.org with your name, location and what you’re noticing in the environment around you… it could be our next Nature Quest!Interested in more weather and wind science? Email us your question at shortwave@npr.org.Listen to every episode of Short Wave sponsor-free and support our work at NPR by signing up for Short Wave+ at plus.npr.org/shortwave.See pcm.adswizz.com for information about our collection and use of personal data for sponsorship and to manage your podcast sponsorship preferences.NPR Privacy Policy
Transcript
Discussion (0)
You're listening to Shortwave from NPR.
Hi, Shortwaver's Emily Kwong here with producer Hannah Chin.
Hey.
Hey. And we have been working on an episode for a listener who has been with us from the very beginning.
I think back to episode one.
This is Barry Zalf. He lives in Louisville, Kentucky.
Though I don't remember what the episode was.
That's because these days, Barry's thoughts are much more consumed by a shift in his daily life.
namely the wind.
I just have a personal perception that it has gotten considerably windier in Louisville over the 35 years that I've lived here.
We're getting lots of wind on dry, clear, or partly cloudy days that we would have never seen before when there wasn't a thunderstorm happening.
Which really bothers Barry because he likes to bike.
And, well, wind isn't great for bikers.
But to truly figure out whether it was getting windier,
Barry did what any good science journalist would do.
He went digging for data.
And over Zoom, he showed me over 20 years of NOAA data
about Louisville's wind patterns.
Share. Can I sphere screen?
I love that our listeners make graphs for their questions.
Yeah, it's so good because you wanted to make sure this wasn't a recency bias
because Louisville has seen a few windstorms in recent years.
But when I looked at his data across 20 or so years...
For every measure, the wind speed is higher.
for the last 10 years of my dataset and for the first five years of my data set.
And that impressed Scott Gunter.
Does Barry want to come back for a graduate degree or something like, holy analysis?
That is awesome.
A few notes maybe, but in general, like, that's really impressive.
So this is Scott Gunter.
He's an assistant professor at the University of Loewvel with a special focus on extreme weather.
And he was excited to see this graph because low-speed winds aren't really something a lot of
scientists pay attention to. Researchers like Scott are more worried about severe winds, which the
National Weather Service defines as winds above 58 miles per hour. They're the kind of winds that can
cause damage. But here's the thing. We all grapple with low-speed winds in our daily lives. To Barry's
point, they can be totally disruptive to us as humans, even if they're not turning into high-speed tornado
winds or toppling buildings. To end the show, we interrogate the wind for Barry. Scott helps
this dig more deeply into wind, how severe winds and thunderstorms unfold, and ask the question
whether tornado alley is shifting as the climate warms. I'm Emily Kwong. And I'm Hannah-Shin.
You're listening to Shortwave from NPR. Okay, Scott, so wind is just moving air. How does
wind get around? And how does it get around so fast? There's one force in particular that really
drives wind. And we call that the pressure gradient force. Huh. It's just
changes in atmospheric pressure. And we live at the bottom of an atmospheric swimming pool.
Just like if you dove underwater in a pool, you can feel that pressure of all that water
pushing down on you. I almost think like we have an ocean above. Yes, a thousand percent.
With like currents and pressure gradients. Yeah, you got it. And there are areas of high pressure,
low pressure that are approaching one another or interacting with one another. If we think about an area of
low pressure.
That is typically an area of rising air.
That rising air causes other air to flow inward toward it.
And then that leads to a whole other array of atmospheric interactions that lead to
thunderstorms and rain.
And so areas of low pressure are stormy and windy, while areas of high pressure are
less windy and kind of clear sky.
not stormy. What drives changes in wind patterns over time? So those areas of low pressure are essentially
being driven by the jet stream. This river of very fast-moving winds way, way above our heads,
top of the troposphere. That's essentially our storm track. And that's one reason why Kentucky
sees a lot of that is we're part of that storm track. A lot of areas of low pressure form. A lot of areas of
low pressure form in Texas and Oklahoma,
scoot right up the Ohio Valley into the northeast.
And one of the things that we're kind of expecting to see down the road with climate change
is a shift in that jet stream to maybe be further north.
Ah.
That would suggest maybe that in time it would become less windy here,
just like places further south.
Wow.
So the positioning of the jet stream is very important in terms of driving these synoptic windstorms.
Gotcha. Okay. I want to dig deeper into Barry's question. Just moving from his graph into what you know from your data, is it getting windier in Louisville?
So overall, wind is very dependent upon larger atmospheric circulations.
where wind speed maybe increases for a few decades and then maybe decreases a little bit.
And so it's hard to tell if that is a long-term trend or maybe a shorter decadal trend,
multi-seasonal trend that often shows up in climate data.
And I will give Barry full props for using almost what we call a climate normal,
is a 30-year period. And so the longer that you can stretch out that period, the better that you
can understand some of these trends and see whether or not this is long-term, like climate
scale, or is this a short-term weather phenomenon such as maybe the effects of El Nino or
La Nino or something like that that is causing kind of some of these spikes that affect the trend.
If you were to look at that graph, without Barry's own interpretation, what would you gather from it?
I probably would have come to the same conclusion.
It looks like the more recent years have had a greater number of wind speeds above specific thresholds.
But overall, we are not seeing an increase in extreme winds and high winds.
Correct.
However, Barry, what he's seeing at least with the data he gathered from Bowman Airfield,
does suggest an increase in, like, low winds?
Yeah, lower intensity winds.
And I thought that was really kind of a clever way of looking at that
because meteorologists were usually focused on extremes.
And a lot of the research suggests that extreme winds,
there hasn't been much changed through time in the eastern part of the U.S.
And so this was really kind of interesting to see those lower winds.
wind speed thresholds.
And I am not sure how much that's been explored in the literature and, you know, from a peer-reviewed perspective.
Totally.
The winds that only a biker would notice.
Right.
And you're currently working on a project that measures weather, including faster winds in Kentucky overall.
Have you seen any noticeable changes over the last 30 years?
There has been maybe an arguable uptick in, um,
in some of the sustained winds.
And as I was thinking about this,
and this kind of connects to even what Barry was seeing,
whereas our wind gusts kind of have not necessarily seen that same pattern.
And I think this is where it does get difficult,
and it's always worth reiterating this idea of weather versus climate.
And trying to pull out specific weather events from large-scale climate,
climate data sets is kind of tough. Maybe in another two years I'll have a more direct less
You're working on it. Yes. Yeah, a more direct, less kind of wishy-washy answer for you.
This is the process of science. You gather data. It takes a very long time. You have to be very
rigorous. You find out. Kentucky is not tornado alley. When people think of tornadoes, they don't
think of Kentucky. However, I've been Googling, and there's all these articles saying,
will Kentucky be in Tornado Alley? Is Tornado Alley moving east? What do you have to say about
Kentucky and tornadoes? Excellent question. So when we talk about things like tornadoes,
we generally portray them like cupcakes. So,
In order to make cupcakes appear, you have to have all the ingredients at your house in your kitchen.
And then you have to mix those ingredients together in order to produce a cupcake that's going to sit on a very specific place at your counter.
So with tornado alley or this idea of tornado alleys, we're basically highlighting these regions where the ingredients come together relatively.
frequently. A tornado can happen anywhere, anywhere those ingredients come together. And so what we're
seeing, I think, is maybe variations in where those ingredients are coming together. And there
could be a lot of different things driving that. We can say in the future that with climate change,
the ingredients may come together more frequently in places they haven't come together. And
together before, like this shift that we're seeing in Tornado Alley.
But we can't necessarily say anything about tornadoes themselves.
Those are weather events.
They're too small scale to project those out into the future.
But there's a lot of excellent, excellent research going on looking at the severe storm environments,
the environments that tornadoes form in,
and how will those change in the future?
And that will be certainly very important for preparedness,
because to live through a tornado is not a cupcake-like experience at all.
It's very well put.
Scott, thank you so much for coming on Shortwave to talk through all of this with us.
Oh, my goodness, Emily, this has been great.
I've enjoyed this so much.
And thank you to Barry Zolf for listening to Shortwave from the beginning.
Be like Barry and follow Shortwave
and send us your questions about your local
environment. We'll take a crack at it
on a future episode. Our email is
Shortwave at npr.org.
This episode was produced by
Hannah Chin and Norgill. It was edited
by our showrunner Rebecca Ramirez
and fact checked by Tyler Jones.
The audio engineer was Jimmy Keely.
I'm Emily Kwong. Thank you for listening to Shortwave
from NPR.