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By NASA
Portrait of John Boyd, whose contributions to NASA spanned more than 70 years.Credit: NASA John Boyd, known to many as Jack and whose career spanned more than seven decades in a multitude of roles across NASA as well as its predecessor, the National Advisory Committee for Aeronautics (NACA), died Feb. 20. He was 99. Born in 1925, and raised in Danville, Virginia, he was a long-time resident of Saratoga, California.
Boyd is being remembered by many across the agency, including Dr. Eugene Tu, director, NASA’s Ames Research Center in California’s Silicon Valley, where Boyd spent most of his career.
“Jack brought an energy, optimism, and team-based approach to solving some of the greatest technological challenges humanity has ever faced, which remains part of our culture to this day,” said Tu. “There are few careers as wide-ranging and impactful as Jack’s.”
In 1947, Boyd began his career at the then-called Ames Aeronautical Laboratory in Moffett Field, California, as an aeronautical engineer working to design and test various wing shapes using the center’s 1-by-3-foot supersonic wind tunnel. Boyd continued conducting research in wind tunnels, testing designs that led to dramatic increases in the efficiency of the supersonic B-58 bomber, as well as the F-102 and F-106 fighters.
In 1958, just before Ames became part of a newly established NASA, Boyd recalled thinking, “Maybe someday we’ll go out into the far blue yonder, and if we do, what are we going to fly? How are we going to bring it back into the atmosphere safely?” He and a team of engineers turned their attention to studying the dynamics of high-speed projectiles in hypervelocity ranges, filled with different mixtures of gases to mimic the atmospheres of Mars and Venus, in preparation for sending spacecraft out into space and safely back again or to the surface of other worlds.
By the mid-60s, Boyd was promoted into leadership and tapped to become deputy director for Aeronautics and Flight Systems at NASA Ames. In the late 1960s, as America was redefining its space exploration goals and sending humans to the Moon, Boyd served as the center’s lead to assist NASA Headquarters in Washington consolidate and create new research programs.
In 1979, Boyd served as the deputy director at NASA’s Dryden Flight Research Center (now known as NASA’s Armstrong Flight Research Center) in Edwards, California, and prepared the center for its role as a landing site for the space shuttle. He briefly returned to Ames before heading to NASA Headquarters to be associate administrator for management under James M. Beggs. Boyd left government service in 1985, taking a position as chancellor for research and an adjunct professor of aerodynamics, engineering, and the history of spaceflight for the University of Texas System.
Boyd returned to NASA and California’s Silicon Valley in 1993,inspiring students through educational outreach initiatives, and serving as the senior advisor to the director, senior advisor for history, and the center ombudsman until his retirement in 2020.
Boyd credits his interest in airplanes to a cousin who was a paratrooper and gave him a ride in a biplane in the 1940s. In 1943, he enrolled and became the first in his family to earn a degree with a bachelor of science in aeronautical engineering from Virginia Polytechnic Institute and State University in Blacksburg, Virginia. He was a recipient of the NASA Exceptional Service Award, the NASA Outstanding Leadership Award, the NASA Equal Employment Opportunity Medal, the Presidential Rank of Meritorious Executive, the NASA Distinguished Service Medal, the Army Command Medal, and the NASA Headquarters History Award. He also was a Fellow of the American Institute of Aeronautics and Astronautics and a Sloan Fellow at Stanford University.
“The agency and the nation thank and honor Jack as a member of the NASA family and the highest exemplar of a public servant who believed investing in others is the greatest contribution one can make,” added Tu. “He will be deeply missed.”
For more information about NASA Ames, visit:
https://www.nasa.gov/ames
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Cheryl Warner
Headquarters, Washington
202-358-1600
cheryl.m.warner@nasa.gov
Rachel Hoover
Ames Research Center, Silicon Valley
650-604-4789
rachel.hoover@nasa.gov
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Last Updated Feb 26, 2025 EditorJessica TaveauLocationNASA Headquarters Related Terms
Ames Research Center Aeronautics Armstrong Flight Research Center NASA Headquarters National Advisory Committee for Aeronautics (NACA) View the full article
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By NASA
A SpaceX Falcon 9 rocket stands vertical on Tuesday, Feb. 25, 2025, at Launch Complex 39A at NASA’s Kennedy Space Center ahead of Intuitive Machines’ IM-2 mission as part of the agency’s Commercial Lunar Payload Services initiative and Artemis campaign. SpaceX Sending instruments to the Moon supports a growing lunar economy on and off Earth, and the next flight of NASA science and technology is only days away. NASA’s CLPS (Commercial Lunar Payload Services) initiative is a lunar delivery service that sends NASA science and technology instruments to various geographic locations on the Moon using American companies. These rapid, cost-effective commercial lunar missions at a cadence of about two per year improve our understanding of the lunar environment in advance of future crewed missions to the Moon as part of the agency’s broader Artemis campaign.
Of the 11 active CLPS contracts, there have been three CLPS launches to date: Astrobotic’s Peregrine Mission One, which collected data in transit but experienced an anomaly that prevented it from landing on the Moon; Intuitive Machines’ IM-1 mission, which landed, tipped over, and operated on the lunar surface; and Firefly Aerospace’s Blue Ghost Mission One that is currently enroute and scheduled to land in early March 2025. The CLPS contract awards cover end-to-end commercial payload delivery services, including payload integration, launch from Earth, landing on the surface of the Moon, and mission operations.
NASA’s fourth CLPS flight is from Intuitive Machines with their IM-2 mission. The IM-2 mission is carrying NASA science and technology instruments to Mons Mouton, a lunar plateau just outside of 5 degrees of the South Pole of the Moon, closer to the pole than any preceding lunar mission.
Scheduled to launch no earlier than Wednesday and land approximately eight days later, Intuitive Machines’ Nova-C lander, named Athena, will carry three NASA instruments to the lunar South Pole region – the Polar Resources Ice Mining Experiment-1 (PRIME-1) suite and the Laser Retroreflector Array (LRA).
The PRIME-1 suite consists of two instruments, the TRIDENT drill (The Regolith Ice Drill for Exploring New Terrain) and MSolo (Mass Spectrometer observing lunar operations), which will work together to extricate lunar soil samples, known as regolith, from the subsurface and analyze their composition to further understand the lunar environment and gain insight on potential resources that can be extracted for future examination.
The meter-long TRIDENT drill is designed to extract lunar regolith, up to about three feet below the surface. It will also measure soil temperature at varying depths below the surface, which will help to verify existing lunar thermal models that are used for ice stability calculations and resource mapping. By drilling into the lunar regolith, information is gathered to help answer questions about the lunar regolith geotechnical properties, such as soil strength, both at the surface and in the subsurface that will help inform Artemis infrastructure objectives. The data will be beneficial when designing future systems for on-site resource utilization that will use local resources to create everything from landing pads to rocket fuel. The lead development organization for TRIDENT is Honeybee Robotics, a Blue Origin Company.
The MSOLO instrument is a mass spectrometer capable of identifying and quantifying volatiles (or gasses that easily evaporate) found at or beneath the lunar surface, including– if it’s present in the regolith within the drill’s reach – water and oxygen, brought to the surface by the TRIDENT drill. This instrument can also detect any gases that emanate from the lander, drilling process, and other payloads conducting operations on the surface. Using MSolo to study the volatile gases found on the Moon can help us understand how the lander’s presence might alter the local environment. The lead development organization is INFICON of Syracuse, New York, in partnership with NASA’s Kennedy Space Center in Florida.
NASA’s LRA is a collection of eight retroreflectors that enable precision laser ranging, which is a measurement of the distance between the orbiting or landing spacecraft to the reflector on the lander. The LRA instrument is passive, meaning it does not power on. It will function as a permanent location marker on the Moon for decades to come, similar to its predecessors. The lead development organization is NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
In addition to the CLPS instruments, two technology demonstrations aboard IM-2 were developed through NASA’s Tipping Point opportunity. These are collaborations with the agency’s Space Technology Mission Directorate and industry that support development of commercial space capabilities and benefit future NASA missions.
Intuitive Machines developed a small hopping robot, Grace, named after Grace Hopper, computer scientist and mathematician. Grace will deploy as a secondary payload from the lander and enable high-resolution imaging and science surveying of the lunar surface, including permanently shadowed craters around the landing site. Grace is designed to bypass obstacles such as steep inclines, boulders, and craters to cover a lot of terrain while moving quickly, which is a valuable capability to support future missions on the Moon and other planets, including Mars.
Nokia will test a Lunar Surface Communications System that employs the same cellular technology here on Earth. Reconceptualized by Nokia Bell Labs to meet the unique requirements of a lunar mission, this tipping point technology aims to demonstrate proximity communications between the lander, a Lunar Outpost rover, and the hopper.
Launching as a rideshare alongside the IM-2 mission, NASA’s Lunar Trailblazer spacecraft also will begin its journey to lunar orbit where it will map the distribution of water – and other forms of water – on the Moon.
Future CLPS flights will continue to send payloads to the near side, far side, and South Pole regions of the Moon where investigations and exploration are informed by each area’s unique characteristics. With a pool of 13 American companies under CLPS, including a portfolio of 11 lunar deliveries by five vendors sending more than 50 individual science and technology instruments to lunar orbit and the surface of the Moon, NASA continues to advance long-term exploration of the Moon, and beyond to Mars.
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By NASA
The four crew members of NASA’s SpaceX Crew-9 mission, including NASA astronauts Nick Hague, Suni Williams, and Butch Wilmore, along with Roscosmos cosmonaut Aleksandr Gorbunov, pose for a photo aboard the International Space StationNASA Media are invited to hear from NASA’s SpaceX Crew-9 astronauts during a news conference beginning at 11:55 a.m. EST, Tuesday, March 4, from the International Space Station.
NASA astronauts Nick Hague, Suni Williams, and Butch Wilmore will discuss their return to Earth on NASA+. Learn how to watch NASA content through a variety of platforms, including social media.
Media interested in participating must contact the newsroom at NASA’s Johnson Space Center in Houston no later than 5 p.m. Monday, March 3, at 281-483-5111 or jsccommu@mail.nasa.gov. To ask questions, media must dial into the news conference no later than 15 minutes prior to the start of the call. A copy of NASA’s media accreditation policy is online. Questions also may be submitted on social media using #AskNASA.
Crew-9 contributed to hundreds of scientific experiments, including swabbing the station’s exterior for microbes, printing 3D medical devices, and studying how moisture, orbital altitude, and ultraviolet light affect plant growth.
The crew will depart the space station after the arrival of Crew-10 and a short handover period. Ahead of Crew-9’s return, mission teams will review weather conditions at the splashdown sites off the coast of Florida prior to departure from station.
The mission is part of NASA’s Commercial Crew Program, which provides reliable access to space, maximizing the use of the station for research and development and supporting future missions beyond low Earth orbit by partnering with private companies to transport astronauts to and from the space station.
Follow updates on the Crew-9 mission at:
https://www.nasa.gov/station
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Joshua Finch / Jimi Russell
Headquarters, Washington
202-358-1100
joshua.a.finch@nasa.gov / james.j.russell@nasa.gov
Courtney Beasley
Johnson Space Center, Houston
281-483-5111
courtney.m.beasley@nasa.gov
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Last Updated Feb 26, 2025 LocationNASA Headquarters Related Terms
Humans in Space Astronauts Barry E. Wilmore International Space Station (ISS) Sunita L. Williams
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By European Space Agency
Video: 00:03:06 The ExoMars Rosalind Franklin rover will drill deeper than any other mission has ever attempted on the Red Planet.
The third episode in the series shows how the rover will extract, collect and analyse martian samples in a high-fidelity simulation.
Rosalind Franklin will be the first rover to reach a depth of up to two metres deep below the surface, acquiring samples that have been protected from harsh fsurface radiation and extreme temperatures.
The drill system combines multiple precission mechanisms in an intricate automated sequence. It uses three extension rods that connect tor form a two-metre “drill string”.
As the rover drills, it will simultaneously investigate the borehole using infrared spectroscopy to study mineral composition.
The ExoMars Rosalind Franklin mission is part of Europe’s ambitious exploration journey to search for past and present signs of life on Mars.
For the latest mission updates, visit ESA’s ExoMars website and our FAQ section.
Watch all the videos from the ExoMars Rosalind Frankin mission series.
Access the related broadcast quality video material.
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By NASA
Explore This Section Earth Home Earth Observer Home Editor’s Corner Feature Articles Meeting Summaries News Science in the News Calendars In Memoriam More Archives 8 min read
AGU 2024: NASA Science on Display in the Nation’s Capital
Introduction
The American Geophysical Union (AGU) returned to the nation’s capital in 2024, hosting its annual meeting at the Walter E. Washington Convention Center in Washington, DC from December 9–14, 2024. NASA Science upheld its long-standing tradition as an AGU partner and exhibitor, leveraging the meeting as an opportunity to share NASA’s cutting-edge research, data, and technology with the largest collection of Earth and planetary science professionals in the world. Many of the estimated 25,000 students, scientists, and industry personnel who attended the conference visited the NASA Science exhibit, interacting with NASA subject matter experts as detailed in the essay that follows – see Photo 1. Visitors also watched live Hyperwall presentations and collected NASA Science outreach materials, such as the 2025 NASA Science Planning Guide.
Photo 1. Paulo Younse [NASA/Jet Propulsion Laboratory (JPL), Robotics Systems Group—Engineer,] poses with a model of the sample tube he designed for the caching architecture that was used on NASA’s Mars Sample Return mission. Photo credit: NASA Highlights from the NASA Science Exhibit
NASA Hyperwall Stories
The NASA Hyperwall has been a focal point of the agency’s outreach efforts for over two decades, serving as both a powerful storytelling platform and the primary vehicle through which the public engages with the award-winning visualizations published by NASA’s Scientific Visualization Studio (SVS) – see Photo 2. Forty-nine NASA mission scientists and program representatives shared NASA science with the public from the Hyperwall stage during AGU24. NASA leadership shared mission news and outlined upcoming research across all five of the NASA Science divisions: Earth science, planetary science, heliophysics, astrophysics, and biological and physical sciences – see Photos 3–8. A catalog of NASA project scientists and mission representatives, who provided colorful overviews of everything from NASA’s Mars Sample Return to the Parker Solar Probe’s historic flyby of the Sun, delivered additional presentations.
Photo 2. Mark Subbarao [NASA GSFC—Director of NASA’s Scientific Visualization Studio] highlighted key visualizations produced by NASA’s Scientific Visualization Studio during 2024 and presented them as a countdown of the top 10 visualizations of the year. Photo credit: NASA The complete AGU24 Hyperwall schedule is available at this link. Readers can view YouTube videos of the presentations via links over the individual names in the photo captions below.
Photo 3. Nicola Fox [NASA HQ—Associate Administrator of Science Mission Directorate] kicked off the week’s Hyperwall storytelling series by sharing 12 images selected for the 2025 NASA Science Planning Guide. Each image underscores the beauty of the natural world and the inherent value of scientific endeavors undertaken not only at NASA but by citizens around the globe. Photo credit: NASA Photo 4. Karen St. Germain [NASA HQ—Director of the Earth Science Division] provided audience members with an overview of NASA’s Earth Science Division – including the latest science from the Plankton, Aerosol, Cloud, and Ecosystems (PACE) mission. Photo credit: NASA Photo 5. Jack Kaye [NASA HQ—Director of the Airborne Science Program] highlighted key airborne science missions that flew in 2024 and demonstrated the broad list of airborne satellites and instruments and how their applications enable the advancement of Earth science research around the globe. Photo credit: NASA Photo 6. Joseph Westlake [NASA HQ—Director of the Heliophysics Division] delivered a talk in front of the NASA Hyperwall that captured the groundbreaking research that NASA has planned for the culmination of the Heliophysics Big Year, including mission news related to the Parker Solar Probe, Interstellar Mapping and Acceleration Probe (IMAP), and Tandem Reconnection and Cusp Electrodynamics Reconnaissance Satellites (TRACERS). Photo credit: NASA Photo 7. Mark Clampin [NASA HQ—Director of the Astrophysics Division] gave AGU attendees a glimpse of NASA missions that will help researchers around the globe observe distant worlds and answer profound questions about the physics of the universe beyond our solar system. His presentation centered around the impact of the upcoming Nancy Grace Roman Telescope and Habitable Worlds Observatory (HWO). Photo credit: NASA Photo 8. Lisa Carnell [NASA HQ—Director of the Biological Sciences Division], who sits at the helm of NASA’s newest scientific division, gave an overview of the current and future NASA research that is enhancing our understanding of how humans can live and work in space. Photo credit: NASA During AGU, NASA also celebrated the winners of the 2024 AGU Michael Freilich Student Visualization Competition, an annual competition honoring former NASA Earth Science Division director Michael Freilich that inspires students to develop creative strategies for effectively communicating complex scientific problems – see Photo 9. See the summary of “Symposium on Earth Science and Applications from Space…” [The Earth Observer, Mar–Apr 2020, Volume 32 Issue 3, 4–18] to learn more about Freilich’s career at NASA and impact on Earth science. A list of the award’s past recipients, dating back to the 2016, is published on AGU’s website.
Photo 9a. In partnership with AGU, student winners of the 2024 AGU Michael Freilich Student Visualization Competition received prizes and presented their work at the NASA hyperwall stage. Steve Platnick [NASA GSFC—Research Scientist for Earth Science Division ] [left with back to camera] congratulates Caitlin Haedrich [NC State University—Ph.D. candidate, contest winner (CW)]. Photo credit: NASA Photo 9b. Standing on the NASA Hyperwall stage [left to right] are Erik Hankin [AGU—Assistant Director of Career and Student Programs], Barry Lefer [NASA HQ—Program Manager for the Tropospheric Composition Program (TCP)], Mya Thomas [University of Missouri-Kansas City—Undergraduate Student. CW], Mariliee Karinshak [Washington University in St. Louis—Undergraduate Student, CW], Swati Singh [Auburn University—PhD Candidate, CW], Crisel Suarez [Vanderbilt University—PhD Candidate, CW], and Steve Graham [GSFC/Global Science & Technology Inc.—NASA Science Support Office Task Leader]. Photo credit: NASA Photo 9c. Patrick Kerwin [University of Arizona—Graduate Student, CW] delivers his award-winning talk titled Earth Observation for Disaster Response: Highlighting Applied Products. Photo credit: NASA
Face-to-face With NASA Experts
AGU opened its exhibit hall to the public at 10:00 AM on December 9. Thousands of eager attendees poured into the space to engage with exhibit staff, representing a variety of universities, research institutions, and private organizations from around the world.
Photo 10. AGU attendees explore the NASA Science exhibit space shortly after the exhibit hall opened on December 9. Photo credit: NASA Photo 11a. AGU meeting participants anticipate the distribution of the NASA Science Planning Guide each year, which features artwork from Science Mission Directorate (SMD) art director Jenny Mottar and a collection of science images curated by SMD leadership. Photo credit: NASA Photo 11b. AGU meeting participants anticipate the distribution of the NASA Science Planning Guide each year, which features artwork from Science Mission Directorate (SMD) art director Jenny Mottar and a collection of science images curated by SMD leadership. Photo credit: NASA
NASA Science welcomed AGU attendees, who gathered within the perimeter of the exhibit shortly after opening – see Photo 10 – where NASA staff distributed the 2025 NASA Science Planning Guide – see Photo 11.
Attendees filtered through the NASA Science booth by the thousands, where more than 130 outreach specialists and subject matter experts from across the agency were available to share mission-specific science and interface directly with members of the public – see Photos 12–15.
Photo 12. The NASA Science booth included a collection of exhibit tables, where mission scientists and outreach specialists shared information and materials specific to various NASA missions and programs. Photo credit: NASA Photo 13. Outreach specialists from NASA’s Dragonfly mission, which plans to send a robotic aircraft to the surface of Saturn’s moon Titan, speak with attendees in front of a to-scale model of the aircraft. Photo credit: NASA Photo 14. Staff from NASA’s astrobiology program share a collection of graphic novels produced by graphic artist Aaron Gronstal, highlighting the research that the program conducts to answer important questions about the origin, evolution, and distribution of life in the universe. Photo credit: NASA Photo 15. Exhibit staff and AGU attendees interact with three-dimensional (3D) models of NASA spacecraft and technology in augmented reality. Photo credit: NASA AGU attendees met with project scientists and experts at a new exhibit, called “Ask Me Anything.” The discussions spanned a variety of NASA missions, including Mars Sample Return, James Webb Space Telescope, and Parker Solar Probe, with specialists from these and other missions who spoke during the sessions – see Photo 16. An installation of NASA’s Earth Information Center also made an appearance at AGU24, providing attendees with additional opportunities to speak with Earth scientists and learn more about NASA research – see Photo 17.
Photo 16. NASA Heliophysicists discuss solar science with AGU attendees at the “Ask Me About Heliophysics” table. Photo credit: NASA Photo 17. At the Earth Information Center, attendees spoke with NASA staff about the various ways that NASA keeps tabs on the health of Earth’s atmosphere, oceans, and landmasses from space. Photo credit: NASA 2024 SMD Strategic Content and Integration Meeting
As they have done for many years now, staff and leadership from NASA’s Science Mission Directorate (SMD) Engagement Branch convened in Washington, DC on December 8 (the day before the Fall AGU meeting began) to discuss agency communications and outreach priorities. This annual meeting provided personnel from each of SMD’s scientific divisions a valuable opportunity to highlight productive strategies and initiatives from the previous calendar year and chart a path for the year ahead. During the single-day event, team leaders shared information related to NASA’s web-modernization efforts, digital outreach strategies, and exhibit presence. Approximately 150 in-person and 50 online NASA staff joined the hybrid meeting.
After a welcome from Steve Graham [GSFC/GST—NASA Science Support Office Task Leader], who covered meeting logistics, the participants heard from NASA Headquarters’ SMD Engagement and Communication representatives throughout the day.
Amy Kaminski [Engagement Branch Chief], who recently replaced Kristen Erickson in this role, used this opportunity to more formally introduce herself to those who might not know her and share her visions for engagement. Karen Fox [Senior Science Communications Official] discussed the evolution of communication for SMD missions over the past decade – moving from siloed communications a decade ago that very much focused on “my mission,” to a much more cooperation between missions and focus on thematic communications. Following up on Kaminski’s remarks that gave an overall vision for engagement, and Fox’s remarks about how having a vision will help streamline our messaging, Alex Lockwood [Strategic Messaging and Engagement Lead] delved into the nuts and bolts of strategic planning, with focus on the use of work packages and memorandums of understanding for promoting upcoming missions.
After the leadership set the tone for the meeting, Emily Furfaro [NASA Science Digital Manager] gave a rapid tour of many of NASA’s digital assets intended to give participants an idea of the vast resources available for use. Diana Logreira [NASA Science Public Web Manager] then laid out some principles to be followed in developing unified vision for the NASA Science public web experience.
In the afternoon, there were individual breakout sessions for the Earth Science, Planetary Science, and Heliophysics divisions. These sub-meetings were led by Ellen Gray, Erin Mahoney, and Deb Hernandez, Engagement Leads for Earth Science, Heliophysics, and Planetary Sciences respectively. These breakout sessions afforded participants with an opportunity to focus on ideas and goals specific to their own divisions for 2025. In the Earth Science breakout session, participants heard from other several other speakers who discussed the beats, or content focus areas, that had been chosen for Earth Science Communications in 2024 – including oceans and Earth Action (formerly known as Applied Sciences) – and those that have been identified for 2025: technology, land science, and continued focus on Earth Action.
Photo 18a. NASA Science Mission Directorate staff gathers in Washington, DC ahead of AGU for the annual meeting, where in-person attendees hear from leadership and work collaboratively to refine communications strategies for 2025. Photo credit: NASA Photo 18b. Joseph Westlake [NASA HQ—Heliophysics Division Director] discusses division-specific goals with Heliophysics communication leads during the division’s “breakout session.” Photo credit: NASA Photo 18c. Science Mission Directorate leadership fields questions from SMD staff during the end-of-meeting panel discussion. Photo credit: NASA
After participants reconvened from the breakouts, Nicola Fox [Associate Administrator, Science Mission Directorate] gave a mid-afternoon presentation in which she presented her perspective on integrated NASA science, which led into a one-hour “Ask Us” panel with Division Directors to conclude the meeting. Participants included: Mark Clampin [Astrophysics], Lisa Carnell [Biological], Julie Robinson [Earth Science, Deputy], Joe Westlake [Heliophysics], John Gagosian [Joint Agency Satellite], Charles Webb [Planetary Science, Acting].
Based on this meeting, and other communications guidance from NASA HQ, a few general SMD/Earth Science content and engagement priorities for 2025 have emerged. They include:
continuing to develop stories and products related to the three primary beats for 2025: technology, land, and Earth action; emphasizing the value of SMD science as a whole or system of connected divisions, promoting cross-divisional science; increasing the use of social media as a vehicle to share NASA missions and programs with diverse audiences; focusing on critical – and high-profile – ongoing missions [e.g., Parker Solar Probe, Europa Clipper, Plankton Aerosols, Cloud and ocean Ecosystem (PACE)] and upcoming launches [ARTEMIS and NASA–Indian Space Research Organisation (ISRO) Synthetic Aperture Radar (NISAR)]; fostering collaborations and partnerships with agencies and institutions, e.g. instillation of the Earth Information Center at the Smithsonian Museum of Natural History; and improving the visitor and guest experience at NASA centers, including Kennedy Space Center launches. Conclusion
The NASA exhibit is an important component of the agency’s presence at AGU, and NASA leverages its large cohort of scientists who participate in the exchange of information and ideas outside of the exhibit hall – in plenary meetings, workshops, poster sessions, panels, and informal discussions. AGU sessions and events that featured NASA resources, scientists, and program directors included the Living with a Star Town Hall, NASA’s Early Career Research Program, NASA’s Sea Level Change Team: Turning Research into Action, and many more. Click here for the complete list of NASA-related events at AGU24.
As the final event in a busy calendar of annual scientific conferences, AGU is often an opportunity for NASA scientists to publish findings from the previous year and set goals for the year ahead. Just as they did in 2024, the agency’s robust portfolio of missions and programs will continue to set new records, such as NASA’s Parker Solar Probe pass of the Sun, and conduct fundamental research in the fields of Earth and space science.
The 2025 AGU annual meeting will be held at the New Orleans Ernest N. Morial Convention Center, in New Orleans, LA, from December 15–19, 2025. See you there.
Nathan Marder
NASA’s Goddard Space Flight Center/Global Science & Technology Inc.
nathan.marder@nasa.gov
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Last Updated Feb 25, 2025 Related Terms
Earth Science View the full article
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