Deep cuts to hurricane data could leave forecasters in the dark
Forecasters are set to lose some of their sharpest eyes in the sky just a few months before Atlantic Hurricane season peaks when the Department of Defense halts a key source of satellite data over cybersecurity concerns.
The data comes from microwave sensors attached to three aging polar-orbiting satellites operated for both military and civilian purposes. Data from the sensors is critical to hurricane forecasters because it allows them to peer through layers of clouds and into the center of a storm, where rain and thunderstorms develop, even at night. The sensors don't rely on visible light.
Losing the data — at a time when the National Weather Service is releasing fewer weather balloons and the agency is short on meteorologists because of budget cuts — will make it more likely that forecasters miss key developments in a hurricane, several hurricane experts said. Those changes help meteorologists determine what level of threat a storm may pose and therefore how emergency managers ought to prepare. Microwave data offers some of the earliest indications that sustained winds are strengthening inside a storm.
'It's really the instrument that allows us to look under the hood. It's definitely a significant loss. There's no doubt at all hurricane forecasts will be degraded because of this,' said Brian McNoldy, a hurricane researcher and senior research associate at the University of Miami's Rosenstiel School of Marine, Atmospheric, and Earth Science. 'They're able to detect when an eyewall forms in a tropical storm and if it's intensifying — or rapidly intensifying.'
Researchers think rapid intensification is becoming more likely in tropical storms as the oceans warm as a result of human-caused climate change.
The three satellites are operated for both military and civilian purposes through the Defense Meteorological Satellite Program, a joint effort of the National Oceanic and Atmospheric Administration (NOAA) and the Department of Defense (DoD).
While hurricane experts said they were concerned about losing the tool, Kim Doster, NOAA's communications director, downplayed the decision's effect on hurricane forecasting by the National Weather Service.
In an email, Doster said the military's microwave data 'is a single dataset in a robust suite of hurricane forecasting and modeling tools in the NWS portfolio.'
Doster said these models include data from geostationary satellites — a different system that constantly observes Earth from about 22,300 miles away and offers a vantage point that appears fixed because the satellites synchronize with Earth's rotation.
They also ingest measurements from Hurricane Hunter aircraft missions, buoys, weather balloons, land-based radar and from other polar-orbiting satellites, including NOAA's Joint Polar Satellite System, which she said provides 'the richest, most accurate satellite weather observations available.'
A U.S. Space Force official said the satellites and their instruments in question remain functional and that the data will be sent directly to weather satellite readout terminals across DoD. The Navy's Fleet Numerical Meteorology and Oceanography Center made the decision to stop processing that data and sharing it publicly, the official said.
The Navy did not immediately respond to a request for comment.
Earlier this week, a division of the Navy notified researchers that it would cease to process and share the data on or before June 30 and some researchers received an email from the Navy's Fleet Numerical Meteorology and Oceanography Center, saying that its data storage and sharing program relied on a processing station that was using an 'end-of-life' operating system with vulnerabilities.
'The operating system cannot be upgraded, poses a cybersecurity concern, and introduces risk to DoD networks,' the email, which was reviewed by NBC News, said.
The move will cut the amount of microwave data available to forecasters in half, McNoldy estimated.
This microwave data is also used by snow and ice scientists to track the extent of polar sea ice, which helps scientists understand long-term climate trends. Sea ice forms from frozen ocean water. It grows in coverage during winter months and typically melts during warmer times of the year. Sea ice reflects sunlight back into space, which cools the planet. That makes it an important metric to track over time. The extent of summer Arctic sea ice is trending lower because of global warming.
Walt Meier, a senior research scientist at the National Snow and Ice Data Center, said his program learned of the Navy's decision earlier this week.
Meier said the satellites and sensors are about 16 years old. Researchers have been preparing for them to eventually fail, but they weren't expecting the military to pull the plug on data with little warning, he said.
Meier said the National Snow and Ice Data Center has relied on the military satellites for data on sea ice coverage since 1987, but will adapt its systems to use similar microwave data from a Japanese satellite, called AMSR-2, instead.
'It certainly could be a few weeks before we get that data into our system,' Meier said. 'I don't think it's going to undermine our sea ice climate data record in terms of confidence in it, but it's going to be more challenging.'
The polar-orbiting satellites that are part of the Defense Meteorological Satellite Program provide intermittent coverage of hurricane-prone areas.
The satellites typically zip around the globe in a north-south orientation every 90-100 minutes in a relatively low orbit, Meier said. The microwave sensors scan across a narrow swath of the earth, which Meier estimated at roughly 1,500 miles.
As the Earth rotates, these polar-orbiting satellites can capture imagery that helps researchers determine the structure and potential intensity of a storm, if it happens to be in their path.
'It's often just by luck, you'll get a really nice pass over a hurricane,' McNoldy said, adding that the change will reduce the geographic area covered by microwave scans and the frequency of scans of a particular storm.
Andy Hazelton, a hurricane modeler and associate scientist with the University of Miami Cooperative Institute for Marine & Atmospheric Studies, said the microwave data is used in some hurricane models and also by forecasters who can access near-real time visualizations of the data.
Hazelton said forecasters are always looking for visual signatures in microwave data that often provide the first evidence a storm is rapidly intensifying and building strength.
The National Hurricane Center defines rapid intensification as a 35-mph or higher increase in sustained winds inside a tropical storm within 24 hours. Losing the microwave data is particularly important now because in recent years, scientists have observed an increase in rapid intensification, a trend likely fueled, in part, by climate change as ocean waters warm.
A 2023 study published the journal Scientific Reports found that tropical cyclones in the Atlantic Ocean were about 29% more likely to undergo rapid intensification from 2001 to 2020, compared to 1971 to 1990. Last year, Hurricane Milton strengthened from a tropical storm to a Category-5 hurricane in just 36 hours. Some of that increase took place overnight, when other satellite instruments offer less information.
The trend is particularly dangerous when a storm, like Hurricane Idalia, intensifies just before striking the coast.
'We've certainly seen in recent years, many cases of rapid intensification ahead of landfall. That's the kind of thing you really don't want to miss,' McNoldy said, adding that microwave data 'are excellent at giving the important extra 12 hours of lead time to see the inner core changes happening.'
Brian LaMarre, the former meteorologist-in-charge at the National Weather Service's weather forecasting station in Tampa Bay, said the data is also useful for predicting flood impacts as a hurricane comes ashore.
'That scan can help predict where the heavier precipitation and rainfall rates can be,' LaMarre said. 'This data is critically important to public safety.'
Hurricane season begins June 1 and ends Nov. 30. It typically starts to peak in late summer and early fall. NOAA forecasters have predicted a more busy 2025 hurricane season than typical, with six to ten hurricanes.
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The Guardian
3 hours ago
- The Guardian
Sudden loss of key US satellite data could send hurricane forecasting back ‘decades'
The Department of Defense will halt a critical atmospheric data collection program at the end of June and has given weather forecasters just days to prepare, according to a public notice sent this week. Scientists that the Guardian spoke with say the change could set hurricane forecasting back 'decades', just as this year's season ramps up. In a National Oceanic and Atmospheric Administration (Noaa) message sent on Wednesday to its scientists, the agency said that 'due to recent service changes' the Defense Meteorological Satellite Program (DMSP) will 'discontinue ingest, processing and distribution of all DMSP data no later than June 30, 2025'. Due to their unique characteristics and ability to map the entire world twice a day with extremely high resolution, the three DMSP satellites are a primary source of information for scientists to monitor Arctic sea ice and hurricane development. The DMSP partners with Noaa to make weather data collected from the satellites publicly available. Noaa said the changes would not impact the quality of forecasting. However, the Guardian spoke with several scientists inside and outside of the US government whose work depends on the DMSP, and all said there are no other US programs that can form an adequate replacement for its data. 'We're a bit blind now,' said Allison Wing, a hurricane researcher at Florida State University. Wing said the DMSP satellites are the only ones that let scientists see inside the clouds of developing hurricanes, giving them a critical edge in forecasting that now may be jeopardized. 'Before these types of satellites were present, there would often be situations where you'd wake up in the morning and have a big surprise about what the hurricane looked like,' said Wing. 'Given increases in hurricane intensity and increasing prevalence towards rapid intensification in recent years, it's not a good time to have less information.' The satellites also formed a unique source of data for tracking changes to the Arctic and Antarctic, and had been tracking changes to polar sea ice continuously for more than 40 years. 'These are some of the regions that are changing the fastest around the planet,' said Carlos Moffat, an oceanographer at the University of Delaware who had been working on a research project in Antarctica that depended on DMSP data. 'This new announcement about the sea ice data really amounts to blinding ourselves and preventing us from observing these critical systems.' Researchers say the satellites themselves are operating normally and do not appear to have suffered any errors that would physically prevent the data from continuing to be collected and distributed, so the abrupt data halt might have been an intentional decision. 'It's pretty shocking,' Moffat said. 'It's hard to imagine what would be the logic of removing access now and in such a sudden manner that it's just impossible to plan for. I certainly don't know of any other previous cases where we're taking away data that is being collected, and we're just removing it from public access.' The loss of DMSP comes as Noaa's weather and climate monitoring services have become critically understaffed this year as Donald Trump's so-called 'department of government efficiency' (Doge) initiative has instilled draconian cuts to federal environmental programs. A current Noaa scientist who wishes to remain anonymous for fear of retaliation said that the action to halt the DMSP, when taken in context with other recent moves by the Trump administration, amounted to 'a systematic destruction of science'. The researcher also confirmed that federal hurricane forecasters were left unprepared for the sudden change with only a few days of notice. 'It's an instant loss of roughly half of our capabilities,' said the scientist. 'You can't expect us to make accurate forecasts and warnings when you take the useful tools away. It frankly is an embarrassment for the government to pursue a course with less data and just pretend everything will be OK.' Scientists said the decision to halt the DMSP will result in immediately degraded hurricane forecasts during what is expected to be an above-average season as well as a gap in monitoring sea ice – just as Arctic sea ice is hitting new record lows. 'This is a huge hit to our forecasting capabilities this season and beyond, especially our ability to predict rapid intensification or estimate the strength of storms in the absence of hurricane hunters,' said Michael Lowry, a meteorologist who has worked at Noaa's National Hurricane Center and with the Federal Emergency Management Agency. 'The permanent discontinuation of data from these satellites is senseless, reckless and puts at risk the lives of tens of millions of Americans living in hurricane alley.' The DMSP dates back to 1963, when the Department of Defense determined a need for high-resolution cloud forecasts to help them plan spy missions. The program, which had been the longest-running weather satellite initiative in the federal government, has since evolved into a critical source of information not just on the inner workings of hurricanes, but also on polar sea ice, wildfires, solar flares and the aurora. In recent years, the DMSP had struggled to maintain consistent funding and priority within the Department of Defense as it transitioned away from its Cold war mission. The only other nation with similar satellite capability is Japan, and messages posted earlier in June indicate that scientists had already been considering a switch to the Japanese data in case of a DMSP outage – though that transition will take time. Neither Noaa nor the Department of Defense specified exactly which service changes may have prompted such a critical program to be so abruptly halted. In a statement to the Guardian, Noaa's communications director, Kim Doster, said: 'The DMSP is a single dataset in a robust suite of hurricane forecasting and modeling tools in the National Weather Service portfolio. This routine process of data rotation and replacement would go unnoticed in past administrations, but the media is insistent on criticizing the great work that Noaa and its dedicated scientists perform every day. 'Noaa's data sources are fully capable of providing a complete suite of cutting-edge data and models that ensure the gold-standard weather forecasting the American people deserve.' One Noaa source the Guardian spoke to said the loss of DMSP's high-resolution data could not be replaced by any other existing Noaa tool. The Guardian has also reached out to the Department of Defense for further explanation and will update this story with any response.
NBC News
17 hours ago
- NBC News
Deep cuts to hurricane data could leave forecasters in the dark
Forecasters are set to lose some of their sharpest eyes in the sky just a few months before Atlantic Hurricane season peaks when the Department of Defense halts a key source of satellite data over cybersecurity concerns. The data comes from microwave sensors attached to three aging polar-orbiting satellites operated for both military and civilian purposes. Data from the sensors is critical to hurricane forecasters because it allows them to peer through layers of clouds and into the center of a storm, where rain and thunderstorms develop, even at night. The sensors don't rely on visible light. Losing the data — at a time when the National Weather Service is releasing fewer weather balloons and the agency is short on meteorologists because of budget cuts — will make it more likely that forecasters miss key developments in a hurricane, several hurricane experts said. Those changes help meteorologists determine what level of threat a storm may pose and therefore how emergency managers ought to prepare. Microwave data offers some of the earliest indications that sustained winds are strengthening inside a storm. 'It's really the instrument that allows us to look under the hood. It's definitely a significant loss. There's no doubt at all hurricane forecasts will be degraded because of this,' said Brian McNoldy, a hurricane researcher and senior research associate at the University of Miami's Rosenstiel School of Marine, Atmospheric, and Earth Science. 'They're able to detect when an eyewall forms in a tropical storm and if it's intensifying — or rapidly intensifying.' Researchers think rapid intensification is becoming more likely in tropical storms as the oceans warm as a result of human-caused climate change. The three satellites are operated for both military and civilian purposes through the Defense Meteorological Satellite Program, a joint effort of the National Oceanic and Atmospheric Administration (NOAA) and the Department of Defense (DoD). While hurricane experts said they were concerned about losing the tool, Kim Doster, NOAA's communications director, downplayed the decision's effect on hurricane forecasting by the National Weather Service. In an email, Doster said the military's microwave data 'is a single dataset in a robust suite of hurricane forecasting and modeling tools in the NWS portfolio.' Doster said these models include data from geostationary satellites — a different system that constantly observes Earth from about 22,300 miles away and offers a vantage point that appears fixed because the satellites synchronize with Earth's rotation. They also ingest measurements from Hurricane Hunter aircraft missions, buoys, weather balloons, land-based radar and from other polar-orbiting satellites, including NOAA's Joint Polar Satellite System, which she said provides 'the richest, most accurate satellite weather observations available.' A U.S. Space Force official said the satellites and their instruments in question remain functional and that the data will be sent directly to weather satellite readout terminals across DoD. The Navy's Fleet Numerical Meteorology and Oceanography Center made the decision to stop processing that data and sharing it publicly, the official said. The Navy did not immediately respond to a request for comment. Earlier this week, a division of the Navy notified researchers that it would cease to process and share the data on or before June 30 and some researchers received an email from the Navy's Fleet Numerical Meteorology and Oceanography Center, saying that its data storage and sharing program relied on a processing station that was using an 'end-of-life' operating system with vulnerabilities. 'The operating system cannot be upgraded, poses a cybersecurity concern, and introduces risk to DoD networks,' the email, which was reviewed by NBC News, said. The move will cut the amount of microwave data available to forecasters in half, McNoldy estimated. This microwave data is also used by snow and ice scientists to track the extent of polar sea ice, which helps scientists understand long-term climate trends. Sea ice forms from frozen ocean water. It grows in coverage during winter months and typically melts during warmer times of the year. Sea ice reflects sunlight back into space, which cools the planet. That makes it an important metric to track over time. The extent of summer Arctic sea ice is trending lower because of global warming. Walt Meier, a senior research scientist at the National Snow and Ice Data Center, said his program learned of the Navy's decision earlier this week. Meier said the satellites and sensors are about 16 years old. Researchers have been preparing for them to eventually fail, but they weren't expecting the military to pull the plug on data with little warning, he said. Meier said the National Snow and Ice Data Center has relied on the military satellites for data on sea ice coverage since 1987, but will adapt its systems to use similar microwave data from a Japanese satellite, called AMSR-2, instead. 'It certainly could be a few weeks before we get that data into our system,' Meier said. 'I don't think it's going to undermine our sea ice climate data record in terms of confidence in it, but it's going to be more challenging.' The polar-orbiting satellites that are part of the Defense Meteorological Satellite Program provide intermittent coverage of hurricane-prone areas. The satellites typically zip around the globe in a north-south orientation every 90-100 minutes in a relatively low orbit, Meier said. The microwave sensors scan across a narrow swath of the earth, which Meier estimated at roughly 1,500 miles. As the Earth rotates, these polar-orbiting satellites can capture imagery that helps researchers determine the structure and potential intensity of a storm, if it happens to be in their path. 'It's often just by luck, you'll get a really nice pass over a hurricane,' McNoldy said, adding that the change will reduce the geographic area covered by microwave scans and the frequency of scans of a particular storm. Andy Hazelton, a hurricane modeler and associate scientist with the University of Miami Cooperative Institute for Marine & Atmospheric Studies, said the microwave data is used in some hurricane models and also by forecasters who can access near-real time visualizations of the data. Hazelton said forecasters are always looking for visual signatures in microwave data that often provide the first evidence a storm is rapidly intensifying and building strength. The National Hurricane Center defines rapid intensification as a 35-mph or higher increase in sustained winds inside a tropical storm within 24 hours. Losing the microwave data is particularly important now because in recent years, scientists have observed an increase in rapid intensification, a trend likely fueled, in part, by climate change as ocean waters warm. A 2023 study published the journal Scientific Reports found that tropical cyclones in the Atlantic Ocean were about 29% more likely to undergo rapid intensification from 2001 to 2020, compared to 1971 to 1990. Last year, Hurricane Milton strengthened from a tropical storm to a Category-5 hurricane in just 36 hours. Some of that increase took place overnight, when other satellite instruments offer less information. The trend is particularly dangerous when a storm, like Hurricane Idalia, intensifies just before striking the coast. 'We've certainly seen in recent years, many cases of rapid intensification ahead of landfall. That's the kind of thing you really don't want to miss,' McNoldy said, adding that microwave data 'are excellent at giving the important extra 12 hours of lead time to see the inner core changes happening.' Brian LaMarre, the former meteorologist-in-charge at the National Weather Service's weather forecasting station in Tampa Bay, said the data is also useful for predicting flood impacts as a hurricane comes ashore. 'That scan can help predict where the heavier precipitation and rainfall rates can be,' LaMarre said. 'This data is critically important to public safety.' Hurricane season begins June 1 and ends Nov. 30. It typically starts to peak in late summer and early fall. NOAA forecasters have predicted a more busy 2025 hurricane season than typical, with six to ten hurricanes.
The Independent
21 hours ago
- The Independent
Residents express amazement after seeing mystery object streak across the sky
More than 200 people across a half-dozen southern U.S. states have now reported witnessing a mysterious object streak across the sky on Thursday, but no one is certain exactly what it was. The object was likely either a meteor or space junk, with most sightings of the streak of light and fireball coming from Georgia and South Carolina around 12:30 p.m., according to a report from the National Weather Service office in Peachtree City, Georgia. As of Friday afternoon, at least 215 reports of the object have poured into the American Meteor Society with many people expressing wonder and amazement in their reports. 'It was a bright fireball,' a woman in Bethlehem, Georgia, wrote. 'It did have a bright tail that disappeared with it, and left behind a smoke trail,' she added. 'I've never seen anything like it before.' A man in Milledgeville, Georgia, reported that 'I believe it hit the ground.' The roof of a Georgia home is pierced A resident of Henry County, Georgia, reported a rock coming through their roof around the time they heard the sonic boom from the fireball. It left behind a hole in the ceiling about the size of a golf ball and a crack in a laminate floor at the home southeast of Atlanta, according to the National Weather Service office in Peachtree City, Georgia. 'We are presuming that a piece of the object fell through their roof,' the weather service said in a brief statement on social media. Dashboard and doorbell cameras across several states in the southeastern U.S. states caught glimpses of the fireball that appeared to be plummeting straight down. Broad daylight sighting is rare Meteors and other space debris frequently enter Earth's atmosphere, but it is rare for an object to be so bright it can easily be seen in broad daylight. Videos of the event showed clear skies on Thursday, allowing many to see the object falling. 'First time to ever see an event in daylight like this,' a man in Cumming, Georgia, north of Atlanta, said in his report to the meteor society. 'It was so bright in the middle of the day... brighter than the sun,' a woman in Dublin, Georgia reported. Bright fireballs are caused by friction as an object enters the atmosphere and slows down considerably. Almost all objects break into minuscule pieces before striking the ground, according to NASA.
