Eyes in the sky Should we be concerned about the loss of weather balloons? Most of the time, not a big deal. But in critical times, the losses will be felt. Matt Lanza, The Eyewall Mar 24, 2025 1:31 pm | 25 A radiosonde with mailing instructions. Credit: NWS Pittsburgh A radiosonde with mailing instructions. Credit: NWS Pittsburgh Story textSizeSmallStandardLargeWidth *StandardWideLinksStandardOrange* Subscribers only Learn moreDue to staff reductions, retirements, and a federal hiring freeze, the National Weather Service has announced a series of suspensions involving weather balloon launches in recent weeks. The question is, will this significantly degrade forecasts in the United States and around the world?On February 27, it was announced that balloon launches would be suspended entirely at Kotzebue, Alaska, due to staffing shortages.In early March, Albany, N.Y., and Gray, Maine, announced periodic disruptions in launches. Since March 7, it appears that Gray has not missed any balloon launchesthrough Saturday. Albany, however,has missed 14 of them, all during the morning launch cycle (12z).The kicker came on Thursday afternoon when it was announced that all balloon launches would be suspended in Omaha, Neb., and Rapid City, S.D., due to staffing shortages. Additionally, the balloon launches in Aberdeen, S.D.; Grand Junction, Colo.; Green Bay, Wis.; Gaylord, Mich.; North Platte, Neb.; and Riverton, Wyo., would be reduced to once a day from twice a day.What are weather balloons?In a normal time, weather balloons would be launched across the country and world twice per day, right at about 8 am ET and 8 pm ET (one hour earlier in winter), or what we call 12z and 00z. Thats Zulu time, or noon and midnight in Greenwich, England. Rather than explain the whole reasoning behind why we use Zulu time in meteorology, heres a primer on everything you need to know. Weather balloons are launched around the world at the same time. Its a unique collaboration and example of global cooperation in the sciences, something that has endured for many years.These weather balloons are loaded up with hydrogen or helium, soar into the sky, up to and beyond jet stream level,getting to a height of over 100,000 feet before they pop. Attached to the weather balloon is a tool known as a radiosonde, or "sonde" for short. This is basically a weather-sensing device that measures all sorts of weather variables like temperature, dewpoint, pressure, and more. Wind speed is usually derived from this based on GPS transmitting from the sonde. Sunday mornings upper air launch map showing a gaping hole over the Rockies and some of the Plains. Credit: University of Wyoming Sunday mornings upper air launch map showing a gaping hole over the Rockies and some of the Plains. Credit: University of Wyoming What goes up must come down, so when the balloon pops, that radiosonde falls from the sky. A parachute is attached to it, slowing its descent and ensuring no one gets plunked on the head by one. If you find a radiosonde, it should be clearly marked, and you can keep it,let the NWS know you found it, or dispose of it properly. In some instances, there may still be a way to mail it back to the NWS (postage and envelope included and prepaid).How this data is usedIn order to run a weather model, you need an accurate snapshot of what we call the initial conditions. What is the weather at time = zero? Thats your initialization point. Not coincidentally, weather models are almost always run at 12z and 00z, to time in line with retrieving the data from these weather balloons. Its a critically important input to almost all weather modeling we use.The data from balloon launches can be plotted on a chart called a sounding, which gives meteorologists a vertical profile of the atmosphere at a point. During severe weather season, we use these observations to understand the environment we are in, assess risks to model output, and make changes to our own forecasts. During winter, these observations are critical to knowing if a storm will produce snow, sleet, or freezing rain.Observations from soundings are important inputs for assessing turbulence that may impact air travel, marine weather, fire weather, and air pollution. Other than some tools on some aircraft that we utilize, the data from balloon launches is the only real good verification tool we have for understanding how the upper atmosphere is behaving.Have we lost weather balloon data before?We typically lose out on a data point or two each day for various reasons when the balloons are launched. Weve also been operating without a weather balloon launch in Chatham, Mass., for a few years because coastal erosion made the site too challenging and unsafe.Tallahassee, Fla., has been pausing balloon launches for almost a year now due to a helium shortage and inability to safely switch to hydrogen gas for launching the balloons. In Denver, balloon launches have been paused since 2022 due to the helium shortage as well.Those are three sites, though, spread out across the country. We are doubling or tripling the number of sites without launches now, many in critical areas upstream of significant weather.Can satellites replace weather balloons?Yes and no.On one hand, satellites today are capable of incredible observations that can rival weather balloons at times. And they also cover the globe constantly, which is important. That being said, satellites cannot completely replace balloon launches. Why? Because the radiosonde data those balloon launches give us basically acts as a verification metric for models in a way that satellites cannot. It also helps calibrate derived satellite data to ensure that what the satellite is seeing is recorded correctly.But in general, satellites cannot yetreplaceweather balloons. They merely act to improve upon what weather balloons do. A study done in themiddle part of the last decadefound that wind observations improved rainfall forecasts by 30 percent.The one tool at that time that made the biggest difference in improving the forecast were radiosondes. Has this changed since then? Yes, almost certainly. Our satellites have better resolution, are capable of getting more data, and send data back more frequently. So certainly, its improved some. But enough? Thats unclear.An analysis done more recently on the value of dropsondes (the opposite of balloon launches; this time, the sensor is dropped from an aircraft instead of launched from the ground) in forecasting West Coast atmospheric rivers showed a marked improvement in forecasts when those targeted drops occur. Another study in 2017 showed that aircraft observations actually did a good job filling gaps in the upper air data network.Even with aircraft observations, there were mixed studies done in the wake of the COVID-19 reduction in air travel that suggested no impact could be detected above usual forecast error noise or that there was some regional degradation in model performance.But to be quite honest, there have not been many studies that I can find in recent years that assess how the new breed of satellites has (or has not) changed the value of upper-air observations. The NASA GEOS model keeps a record of what data sources are of most impact to model verification with respect to 24-hour forecasts. Number two on the list? Radiosondes. This could be considered probably a loose comp to the GFS model, one of the major weather models used by meteorologists globally.The verdictIn reality, the verdict in all this is to be determined, particularly statistically. Will it make a meaningful statistical difference in model accuracy? Over time, yes, probably, but not in ways that most people will notice day to day.However, based on 20 years of experience and a number of conversations about this with others in the field, there are some very real, very serious concerns beyond statistics. One thing is that the suspended weather balloon launches are occurring in relatively important areas for weather impacts downstream. A missed weather balloon launch in Omaha or Albany wont impact the forecast in California. But what if a hurricane is coming? What if a severe weather event is coming? Youll definitely see impacts to forecast quality during major, impactful events. At the very least, these launch suspensions will increase the noise-to-signal ratio with respect to forecasts. The element with the second-highest impact on the NASA GEOS model? Radiosondes. Credit: NASA The element with the second-highest impact on the NASA GEOS model? Radiosondes. Credit: NASA In other words, there may be situations where you have a severe weather event expected to kickstart in one place, but the lack of knowing the precise location of an upper air disturbance in the Rockies thanks to a suspended launch from Grand Junction, Colo., will lead to those storms forming 50 miles farther east than expected. In other words, losing this data increases the risk profile for more people in terms of knowing about weather, particularly high-impact weather.Lets say we have a hurricane in the Gulf that is rapidly intensifying, and we are expecting it to turn north and northeast thanks to a strong upper-air disturbance coming out of the Rockies, leading to landfall on the Alabama coast. What if the lack of upper-air observations has led to that disturbance being misplaced by 75 miles. Now, instead of Alabama, the storm is heading toward New Orleans. Is this an extreme example? Honestly, I dont think it is as extreme as you might think. We often have timing and amplitude forecast issues with upper-air disturbances during hurricane season, and the reality is that we may have to make some more frequent last-second adjustments now that we didnt have to in recent years. As a Gulf Coast resident, this is very concerning.I dont want to overstate things. Weather forecasts arent going to dramatically degrade day to day because weve reduced some balloon launches across the country. They will degrade, but the general public probably wont notice much difference 90 percent of the time. But that 10 percent of the time? Its not that the differences will be gigantic. But the impact of those differences could very well be gigantic, put more people in harms way, and increase the risk profile for an awful lot of people. Thats what this does: It increases the risk profile, it will lead to reduced weather forecast skill scores, and it may lead to an event that surprises a portion of the population that isnt used to be surprised in the 2020s. To me, that makes the value of weather balloons very, very significant, and I find these cuts to be extremely troubling.Should further cuts in staffing lead to further suspensions in weather balloon launches, we will see this problem magnify more often and involve bigger misses. In other words, the impacts here may not be linear, and repeated increased loss of real-world observational data will lead to very significant degradation in weather model performance that may be noticed more often than described above.This story originally appeared on The Eyewall.Matt Lanza, The Eyewall The Eyewall is dedicated to covering tropical activity in the Atlantic Ocean, Caribbean Sea, and Gulf of Mexico. The site was founded in June 2023 by Matt Lanza and Eric Berger, who work together on the Houston-based forecasting site Space City Weather. 25 Comments