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04/21/2026: Cold Start, But Trending Milder  NEWS10 ABC

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NASA’s Boeing 777 has returned to the agency’s fleet after undergoing heavy structural modifications as it transforms from a giant passenger plane into the agency’s next-generation airborne science laboratory. After a check flight and a three-hour transit from Waco, the aircraft returned to NASA’s Langley Research Center in Hampton, Virginia, on April 22.

Since January 2025, the aircraft has been in Texas receiving hardware and structural upgrades to prepare for science operations. The modifications include installing dedicated research stations and extensive wiring. This allows payload systems to communicate with sensors such as lidar and infrared imaging spectrometers during flights. Cabin windows were enlarged and open portals installed at the bottom of the fuselage to mount remote-sensing instruments.

“Airborne missions at NASA use cutting-edge instruments to explore and understand our home planet,” said Derek Rutovic, program manager for the Airborne Science Program at NASA Headquarters in Washington. “The 777 will be the largest airborne research laboratory in our fleet, collecting data to improve life on our home planet and extend our knowledge of the Earth system as a whole.”

Acquired in 2022 to succeed NASA’s retired DC-8 aircraft, the 777 will expand the agency’s airborne research capacity. It can accommodate 50 to 100 operators and carry 75,000 pounds of equipment for flights lasting up to 18 hours.

“NASA’s DC-8 was an incredible workhorse for Earth science for nearly 40 years,” said Kirsten Boogaard, the NASA 777 program manager at NASA Langley and former deputy program manager of NASA’s DC-8. “Being part of that team, I got to see the impact up close. I’m excited for what the 777 will bring. It gives us the ability to bring together more partners, more educational opportunities, and more instruments. That will make a real difference in the data we collect moving forward.”

The aircraft’s inaugural science mission, slated to deploy in January 2027, will investigate high-impact winter weather events, such as severe cold air outbreaks, wind, snow and ice storms, and hazardous seas. Known as the North American Upstream Feature-Resolving and Tropopause Uncertainty Reconnaissance Experiment (NURTURE), the mission will collect detailed atmospheric observations across a vast region spanning North America, Europe, Greenland, and the Arctic and North Atlantic Oceans.

“We’ve been completing the engineering design and analysis to install the NURTURE payload into the aircraft in parallel with the portal modification,” Rutovic said. “We’re excited to get the airplane back home to NASA and on the road to its first mission.”

The NASA 777’s major structural modification was performed by L3Harris Technologies in partnership with Yulista Holding, LLC. Research station and wiring upgrades in the cabin are being performed by NASA and HII. NASA’s Airborne Science Program is responsible for providing aircraft systems that further science and advance the use of satellite data and is part of the Science Mission Directorate’s Earth Science Division.

To learn more about NASA’s airborne science missions, visit:

https://airbornescience.nasa.gov

NASA’s Nancy Grace Roman Space Telescope team now is targeting as soon as early September 2026 for launch, ahead of the agency’s commitment to flight no later than May 2027.

“Roman’s accelerated development is a true success story of what we can achieve when public investment, institutional expertise, and private enterprise come together to take on the near-impossible missions that change the world,” said NASA Administrator Jared Isaacman, who announced the update at a news conference on April 21 at the agency’s Goddard Space Flight Center in Greenbelt, Maryland.

Roman will pair a large field of view with crisp infrared vision to survey deep, vast swaths of sky. While the mission was designed with dark energy, dark matter, and exoplanets in mind, Roman’s unprecedented observational capability will offer practically limitless opportunities for astronomers to explore all kinds of cosmic topics.

By the end of its five-year primary mission, Roman is expected to amass a 20,000-terabyte data archive. Scientists can draw on it to identify and study 100,000 exoplanets, hundreds of millions of galaxies, billions of stars, and rare objects and phenomena — including some that astronomers have never witnessed before.

Roman will launch on a SpaceX Falcon Heavy rocket from Launch Complex 39A at NASA’s Kennedy Space Center in Florida. NASA and SpaceX will share more information about a specific launch date, and the agency will continue to share updates concerning prelaunch preparations as new information becomes available.

The Nancy Grace Roman Space Telescope is managed at NASA’s Goddard Space Flight Center, with participation by NASA’s Jet Propulsion Laboratory and Caltech/IPAC in Southern California, the Space Telescope Science Institute (STScI) in Baltimore, and scientists from various research institutions.

To learn more about the Roman mission, visit:

https://nasa.gov/roman

Media contact:

Claire Andreoli
NASA’s Goddard Space Flight Center, Greenbelt, Md.
301-286-1940

NASA will host a news conference at 1:45 p.m. EDT Wednesday, April 29, from the agency’s Johnson Space Center in Houston to preview astronaut Anil Menon’s upcoming mission to the International Space Station.

Watch the news conference live on NASA’s YouTube channel. Learn how to watch NASA content through a variety of online platforms, including social media.

Following the news conference, individual interviews with Menon will begin at 3 p.m.

United States-based media interested in attending the news conference in person must contact the NASA Johnson newsroom at jsccommu@mail.nasa.gov by 5 p.m. Monday, April 27. U.S. and international media interested in participating by phone must contact NASA Johnson by 9:45 a.m. Thursday, April 23. A copy of NASA’s media accreditation policy is available online.

Requests for interviews with Menon should be submitted by 5 p.m., April 27. In-person interviews are limited to U.S. media. International media may request to conduct interviews virtually.

The Soyuz MS-29 mission, targeted to launch Tuesday, July 14, will carry Menon and his crewmates, Roscosmos cosmonauts Pyotr Dubrov and Anna Kikina, to the International Space Station for an eight-month stay as part of Expeditions 74/75. It will be Menon’s first spaceflight.

Selected as a NASA astronaut in 2021, Menon graduated with the 23rd astronaut class in 2024. After completing initial astronaut candidate training, he began preparing for his first space station flight assignment.

Menon was born and raised in Minneapolis and is an emergency medicine physician, mechanical engineer, and lieutenant colonel in the United States Air Force. He holds a bachelor’s degree in neurobiology from Harvard University in Cambridge, Massachusetts. He also earned a master’s degree in mechanical engineering and a medical degree from Stanford University in Palo Alto, California. Menon completed his emergency medicine and aerospace medicine residency at Stanford and the University of Texas Medical Branch in Galveston, respectively.

Menon still actively practices emergency medicine at Memorial Hermann’s Texas Medical Center and teaches residents at the University of Texas’ residency program. For NASA, Menon also has served as an expedition flight surgeon for the agency’s crew members aboard the space station. Previously, Menon worked at SpaceX and served as the company’s first flight surgeon, helping to launch the first crewed Dragon spacecraft on NASA’s SpaceX Demo-2 mission in 2020 and building its medical organization to support humans on future missions.

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs that are not possible on Earth. The station is a testbed for NASA to understand and overcome the challenges of long-duration spaceflight, expand commercial opportunities in low Earth orbit, and prepare for deep space missions to the Moon as part of the Artemis program in preparation for future human missions to Mars.

Learn more about the International Space Station at:

https://www.nasa.gov/station

-end-

Joshua Finch / Jimi Russell
Headquarters, Washington
202-358-1100
joshua.a.finch@nasa.gov / james.j.russell@nasa.gov

Anna Schneider / Shaneequa Vereen
Johnson Space Center, Houston
281-483-5111
anna.c.schneider@nasa.gov / shaneequa.y.vereen@nasa.gov

This image, released in celebration of Earth Day, shows the terminator – the line between night and day – on Earth. The Artemis II astronauts captured this view on April 2, 2026, during their journey to the Moon.

NASA science improves life on Earth every day. The agency provides insights on our home planet that can only be gathered from space to help put actionable satellite information in the hands of decision-makers. In addition, NASA’s observations of Earth and the technologies the agency develops provide the foundation needed to explore and sustain human life on the Moon, Mars, and beyond.

Download this year’s Earth Day poster.

Image credit: NASA

When NASA’s Apollo 8 crew rounded the far side of the Moon in 1968 and astronaut Bill Anders snapped a picture of Earth peeking above the gray horizon, the image became a symbol of hope in challenging times. The photograph, Earthrise, as it came to be called, helped inspire the first Earth Day celebration two years later.

This year, the astronauts of the Artemis II mission captured their own poignant images of home. The newly released photo shows Earth on April 6, as the crew traveled farther than any humans before them.

“On Earth Day, we are reminded of the extraordinary responsibility we share to understand our planet,” said NASA Administrator Jared Isaacman. “NASA’s Earth science missions continue to deliver critical data that strengthen communities, support industries like agriculture, and help the nation anticipate and respond to wildfires, droughts, flooding, and other natural hazards. Together with our Earth science partners, NASA is committed to deepening our understanding of Earth.”

From cameras pressed against spacecraft windows to the most powerful radar ever flown, imaging technology has taken giant leaps since 1968, but the drive to understand our home in the cosmos has remained.

“Our four Artemis II astronauts — Reid, Victor, Christina and Jeremy — took humanity on a journey that showed us just how special and bright our Earth is, even from the dark side of the Moon, that is especially worth celebrating on Earth Day,” said Nicky Fox, associate administrator of the Science Mission Directorate at NASA Headquarters in Washington. “Seeing the incredible images of our blue marble planet over time from Apollo 8’s Earthrise to Artemis II’s Earthset, it is not only a symbolic moment of beauty, but like the other images captured during the lunar flyby, Earthset is brimming with incredible science in high definition that will help inform our future Artemis missions on the Moon.”

Here’s a look at how NASA’s view of Earth has advanced since that early image of the planet.

Sea level to soaring

In 1968, during their 120th revolution around the planet, the Apollo 7 astronauts snapped a photo of New Orleans, visible amid the green wetlands and tan sediment of the Mississippi River Delta, some 95 nautical miles below. Today, space-based radar is revealing how the earth beneath our feet is rising, sinking and sliding.

Launched in July 2025 by NASA and the Indian Space Research Organisation (ISRO), NISAR’s (NASA-ISRO Synthetic Aperture Radar) L-band and S-band SAR instruments can penetrate clouds and tree canopies to reveal details of Earth’s surface and observe changes. That’s actionable information for communities, including low-lying cities at risk of losing ground due to rising seas and subsiding land.   

The NISAR mission continues a long legacy of Earth-observing satellites. Around the globe, from ice to deserts, NASA’s satellite record has chronicled changes to the human and natural world for decades. See how the recently launched PACE (Plankton, Aerosol, Cloud, and Ocean Ecosystem) satellite captured the Mississippi River Delta swirling with marine life.

“The Artemis photos shared with all of humanity the breathtaking beauty of our home planet, as it can only be seen from space,” said Karen St. Germain, division director, NASA Earth Science Division. “NASA’s fleet of Earth science satellites provide additional dimensions to this beauty, by teaching us how our planet supports the vibrant and dynamic forms of life we see on Earth. This data and discovery help us deliver actionable science so we can continue to thrive on our ever-changing planet.”

Reaching new heights

The Himalaya Mountains have captivated astronauts since the early days of the Space Age. Equipped with a handheld 70mm Hasselblad camera, L. Gordon Cooper photographed Mount Everest and its towering neighbors in 1963 while orbiting the planet 22 times alone in his Mercury-Atlas 9 capsule.

By the early 1990s, scientists were tracing the peaks and valleys of the range in spectacular detail using radar aboard the space shuttle. More recently, other space missions and instruments such as ASTER (Advanced Spaceborne Thermal Emission and Reflection Radiometer) and Landsat have aided high-altitude exploration. They’ve helped scientists pinpoint the location of a deadly avalanche on Mount Everest, and track changing plant life across some of the most remote slopes on the planet.

Eye of storm

Liftoff of Artemis II on April 1, came exactly 66 years to the day after another milestone launch. The world’s first successful weather satellite — TIROS-1 — sported a pair of television cameras and magnetic tape machines when it rocketed into low Earth orbit in 1960. It provided weather forecasters images of cloud cover from space that improved storm forecasting.

Satellite data complemented the unique photographs captured by Apollo astronauts, who documented hurricanes, thunderheads, and other storm systems roiling beneath their feet. The work continues to this day. Next year, a new generation of radars will take flight as part of the INCUS (Investigation of Convective Updrafts) mission. The three small satellites, flying in tight formation, will help determine why, when, and where severe tropical thunderstorms, heavy precipitation, and clouds occur.

See how a water-watching satellite tracked another kind of natural hazard — a tsunami — speeding across the Pacific Ocean in the wake of a massive earthquake off Russia last July.

Frozen fringes

The images above capture two spectacular icescapes a world apart.

The snapshot on the left, taken by a crewmember on the SkyLab space station in 1974, shows plumes of brash ice near Belle Isle off Newfoundland. On the right, new sea ice forms along the coast of Antarctica in an aerial photograph taken during Operation Ice Bridge, NASA’s longest-running airborne mission to observe ice in the North and South polar regions. The findings from that mission, along with satellite laser data, have helped scientists track changes to polar ice sheets since 2003. 

In the Arctic, satellites are continually observing how far sea ice retreats season by season and year over year, recording a decades-long trend of less ice cover. On the other side of the globe, in Antarctica, NASA’s MODIS (Moderate Resolution Imaging Spectroradiometer) instrument recently captured the start of summer in full color.

Night, day

Picturing Earth as a blue marble tells only part of our story. Earth at night also teaches us a lot about humanity. Sensors orbiting our planet can resolve light sources down to the scale of a toll booth on a dark highway. By tracking night light illumination, scientists, policymakers and industry can map urban growth, electricity use, and economic activity across the planet.

Compare, for example, the Apollo 11 crew’s view of a shrouded Earth on the day that Neil Armstrong and Buzz Aldrin landed on the Moon in 1969, and this new data visualization based on more than 1 million satellite observations taken every night for nine years.

To explore thousands of more photographs, visualizations, videos, and diagrams shared by NASA throughout its history, visit:

Cropping and contrast on some images in this story have been adjusted.

-Sally Younger

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