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13 min read
Earth Science Information Partners Celebrate 25 Years of Collaboration
Allison Mills, Earth Science Information Partners, *****@*****.tld Susan Shingledecker, Earth Science Information Partners, *****@*****.tld
Photo 1. Photo of some of the in-person participants of the July 2023 ESIP Meeting. ESIP celebrated its twenty-fifth anniversary in 2023. Founded as a knowledge sharing space, the nonprofit has grown as a collaborative data hub.
Photo credit: Homer Horowitz/ Homer Horowitz Photography
Introduction
In 2023, the Earth Science Information Partners (ESIP) community celebrated 25 years since the nonprofit’s founding. Serving as a home for Earth science data and computing professionals, ESIP has evolved alongside the tools and vast expansion of Earth science data available now.
Building on the deep roots of collaboration that ground ESIP and honoring the 2023 Year of Open Science, the 2023 July ESIP Meeting’s theme focused on “Opening Doors to Open Science.” Open science is a collaborative culture enabled by technology that empowers the open sharing of data, information, and knowledge within the scientific community and the wider public to accelerate scientific research and understanding. This definition of open science comes from the 2021 article on the topic published in Earth and Space Science. (To learn more about how open science is being implemented within the context of NASA’s Earth Science Division – see Open Source Science: The NASA Earth Science Perspective, in the September–October 2021 issue of The Earth Observer [Volume 33, Issue 5, pp. 5–9, 11].)
Participants from around the world gathered July 18–21, 2023, in Burlington, VT to explore this theme. One of the strengths of the ESIP community is how it brings people together from government agencies, academia, and industry to work toward common goals. Altogether, nearly 400 attendees from nearly as many institutions, spanning many technical domains and career stages, gathered for the 4-day meeting, which featured a hybrid format that allowed for both in-person participation and virtual access to all plenaries and breakout sessions. Some of the in-person attendees are shown in Photo 1.
This article begins with a brief section on the history and purpose of ESIP followed by a summary of the highlights from each day of the July 2023 meeting.
History and Purpose of ESIP
ESIP was created in response to a National Research Council (NRC) review of the Earth Observing System Data and Information System (EOSDIS). (To learn more about EOSDIS, see Earth Science Data Operations: Acquiring, Distributing, and Delivering NASA Data for the Benefit of Society, in the March–April 2017 issue of The Earth Observer [Volume 29, Issue 2, pp. 4–18].) As NASA’s first Earth Observing System (EOS) missions were launching or preparing to launch, the NRC called on NASA to develop a new, distributed structure that would be operated and managed by the Earth science community and would include observation and research, application, and education data.
ESIP began with 24 NASA-funded partners, whose purpose was to experiment with and evolve methods to make Earth science data easy to preserve, locate, access, and use by a broad community encompassing research, education, and commercial interests. NASA adopted a deliberate and incremental approach in developing ESIP by starting with a limited set of prototype projects called ESIPs, representing both the research and applications development communities. These working prototype ESIP projects were joined by nine NASA distributed active archive centers (DAACs) to form the core of what was then known as the Federation of ESIPs and were responsible for creating its governing structures and the collaborative community it is today.
Although it started as a federation of partners connected due to a NASA mandate, ESIP has grown into an organization of organizations — and its membership has increased exponentially and diversified significantly. Today, there are more than 170 partner organizations – with room to grow. ESIP holds twice-annual meetings, which have run nonstop since 1998, and all past meeting material is available online. (To see an example of topics discussed at an early ESIP Federation meeting, see Meeting of the Federation of Earth Science Information Partners in the September–October 2001 issue of The Earth Observer [Volume 13, Issue 5, pp. 19–20, 26].)
ESIP also currently supports about 30 collaboration areas, which include 11 standing committees and numerous smaller clusters, or working groups. These committees and clusters conduct business both during and especially between meetings. ESIP also started the ESIP Lab, a microfunding initiative that supports learning objectives alongside technical skill-building. The establishment of an ESIP Community Fellows program has carved out a stronger foothold for early career professionals while the Awards, Endorsement, and programs offers knowledge sharing and recognition at all career stages.
ESIP still brings people together to work on complex Earth science issues — an important task that has not changed in over 25 years — but clearly the world is not the same as it was in 1998 when ESIP was established. This holds true for the hardware, software, remote sensing tools, and computing resources that have changed along with the people and communities who use them. In recognition of this, ESIP has developed a new mission and vision statements, and a new list of core values. A key moment in the 2023 July ESIP meeting (reported on below) was the revelation of these new statements, which were then refined during the meeting and voted on by the Board on July 17, 2023 — see ESIP Vision, Mission, and Core Value Statements below.
ESIP Vision and Mission Statements and Core Values
Vision. We envision a world where data-driven solutions are a reality for all by making Earth science data actionable by all who need them anytime, anywhere.
Mission. To empower innovative use and stewardship of Earth science data to solve our planet’s greatest challenges.
Core Values. Integrity, inclusiveness, collaboration, openness, and curiosity.
The new vision statement was intentionally worded to acknowledge how much power is at the fingertips of all data users. The new mission statement honors the depth of knowledge that is required to make data-driven decisions. Much like open science itself, there is a productive tension between wanting to make data as easy to use as possible while upholding the rigor of scientific standards.
All ESIP collaborations are open to everyone, whether an individual’s home institution is an ESIP partner or not.
Overview of the 2023 July ESIP Meeting
The 2023 July ESIP Meeting showcased how the attitudes, behaviors, connections, engagement, and responses of people to the natural environment as well as to agricultural and food systems – known as human dimensions – inform the ways the community tackles technical challenges and how important it is to gather, work together, and find inspiration. Summary highlights from the meeting follow – organized by day. All the meeting sessions were recorded and are available publicly through the ESIP YouTube channel. The reader is referred to these recordings to learn more about the topics mentioned here.
The 2023 July ESIP meeting brought together 366 attendees – including 120 first-time participants. Through 4 plenaries and 44 breakout sessions, more than 100 organizers and speakers addressed the latest updates in Earth science data. Through the lens of open science, the community considered both the impact of the past 25 years of ESIP as well as how to move forward into the next quarter century.
Opening Doors – and Knocking Down Barriers – to Open Science
Throughout its history, ESIP meetings have brought together the most innovative thinkers and leaders around Earth observation data, forming a community dedicated to making Earth observations more discoverable, accessible, and useful to researchers, practitioners, policy makers, and the public. Openness is simply how work is done in ESIP.
Many participants are drawn to ESIP’s approach, because they find roadblocks to open collaboration and innovation elsewhere. While the ESIP community values the transparency and accountability that is fundamental to open science processes, ESIP participants also recognize the challenges in implementing those practices more broadly.
The 2023 July meeting was an excellent example. The “Opening Doors to Open Science” theme provided a space for participants to talk honestly about the institutional inertia, lack of incentives, and unintended consequences that hinder the open science approach. Often, the barriers are specific to particular domains, organizations, or roles. The ESIP meeting content explored such challenges – and solutions – for researchers, agencies, repositories, data managers, software developers, curriculum designers, and many other groups.
Daniel Segessenman [ESIP Community Fellow] explains his poster at the Research Showcase in Burlington, VT.
Photo credit: Homer Horowitz
DAY ONE
Susan Shingledecker [ESIP—Executive Director] gave the opening remarks and rallied the audience with interactive activities codesigned with Charley Haley [Way Foragers Consulting]. As a collaborative space, ESIP often breaks the norm of lecture-and-listen modes. The discussion and audience-driven talking points helped the community frame the week’s explorations of open science in Earth science data and computing.
Ken Casey [NOAA, National Center for Environmental Information (NCEI)—Deputy Chief of Data Stewardship and ESIP President 2021–2023] shared ESIP’s new mission, vision, and core values.
Kari Jordan [The Carpentries—Chief Executive Officer (CEO)] addressed the importance of authentic diversity and inclusion as a key function of open science. While she ***** out systemic issues and barriers, her presentation focused mostly on action and solutions. She advised the ESIP community to use the organization’s core values and mission to continue opening doors to communities that have been historically left out of Science, Technology, Engineering, and Math (STEM) careers, leadership, and tech development.
The rest of the day was filled with rich, deep dives into many Earth science data and computing topics. Notable highlights include the hands-on, knowledge-sharing sessions led by the ESIP Cloud Computing Cluster, chaired by Aimee Barciauskas [Development Seed]. The sessions – from kerchunk tutorials to overviews of geospatial packages for the Python programming language, to lightning talks where speakers gave walkthroughs of tools used for cloud computing applications (e.g. GeoZarr, a geospatial extension to the Zarr specification for processing multidimensional arrays, or tensors, and storing and manipulating them on the cloud, and JupyterHub) – were often standing room only.
In addition to exploring technical tools, another breakout session motif centered around discussions on engaging stakeholders. One session featured Lesley-Ann Dupigny-Giroux [University of Vermont—State Climatologist], who spoke about climate preparedness for small communities, which was particularly relevant in light of the record-setting flooding that had taken place in Vermont just prior to the meeting. In another session, a team from NASA, including Grace Llewellyn [NASA/Jet Propulsion Laboratory—Software Engineer], Stephanie Schollaert Uz [NASA’s Goddard Space Flight Center (GSFC)—Applied Sciences Manager], and Jennifer Wei [GSFC—Scientist] alongside their collaborators Robert Gradeck [University of Pittsburgh], Mukul Sonwalkar [George Mason University], and Michiaki Tatsubori [IBM Research– Tokyo—Senior Technical Staff Member and Manager], focused on broader collaborations for natural disaster response. Several other sessions focused on specific end users in data centers, repositories, and universities.
DAY TWO
The second day of ESIP’s in-person meetings was nicknamed “Workshop Wednesday.” The day began with the ESIP Lab Plenary, followed by longer, in-depth sessions, and capped with the crowd-favorite Research Showcase Poster and Demo Reception.
Annie Burgess [ESIP—ESIP Lab Director] gave the opening remarks and welcomed Corine Farewell [University of Vermont Innovations] to share her perspective on open science and technology transfer. Many in the research community see the two at odds fundamentally – which the audience made clear during the question-and-answer session – but Farewell ***** out how interactions between open science and technology transfer can open opportunities to tailor licensing and rollouts and to help ensure technology is shared and supported.
Scott Reinhard [New York Times—Graphics Editor] took the stage and showed a room full of data managers, researchers, and program directors just how powerful their work can be with the right ****** choice and analytical filtering for an audience’s intuitive ease – see Figure. As a data visualization expert, Reinhard ***** out his creative process for making award-winning news graphics, built with data from sources such as the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA’s Terra and Aqua platforms, and from instruments on NASA–U.S. Geological Survey Landsat missions. His advice during the question-and-answer session was that “less is more.” He said sharing data with public audiences should be about meeting their needs with clarity and succinctness, which means removing ancillary data that is often included in more dense, scientific presentations.
Figure. This graphic shows an example of work by Scott Reinhard [New York Times], who uses national and state geospatial data to create data visualizations for broad audiences. This map depicts the Dixie ***** in California in 2021 and is shown in a newsprint layout.
Figure Credit: Scott Reinhard/New York Times
The rest of the day continued with community-led breakout sessions that dove into additional tools like OPeNDAP, Amazon Web Service’s SageMaker, and open data resources in NASA’s Earth Science Division. The day also featured a special plated lunch with presentations from ESIP Award winners. Falkenberg Awardees Angelia Seyfferth [University of Delaware] and Raskin Scholar Alexis Garretson [Tufts University] each shared their domain specialties, Seyfferth focusing on arsenic uptake in crops and Garretson on the ecology of mouse genomes.
In the afternoon, the ESIP Education Committee led the annual ESIP Teacher’s Workshop. The organizers brought together about a dozen instructors keen to learn more about Earth science data tools for use in their middle and high school classrooms. Every participant was given a solar eclipse kit, including eclipse glasses and lesson plans – see Photo 2.
The evening concluded with the Research Showcase, which featured 47 posters and demonstrations. This is a particularly important event for early career meeting attendees, including the ESIP Community Fellows.
Photo 2. The ESIP Teacher Workshop took participants outside to test the solar eclipse gear they will use in their classrooms.
Photo credit: Homer Horowitz
DAY THREE
While there was no plenary to start the day, breakout sessions continued throughout the morning and late afternoon. Covering artificial intelligence (AI) tools for wildfires, the ******* Nations Decade of Ocean Science for Sustainable Development (2021–2030), and the Ocean Decade, these ESIP sessions spanned the interdisciplinary breadth of the community. While many attendees have different backgrounds and career paths, it is the technical challenges and opportunities that bring everyone together.
A longer scheduled lunch break transitioned to the unconference, a space for on-the-fly and emergent discussions. Organizers pitched their mini-session ideas, the audience voted, then everyone split into discussion groups similar to organized coffee-break hallway chats. ESIP meeting feedback data shows that in-person attendees value time to integrate new knowledge and network; a short unconference has proven to be a productive way to encourage this.
Another key networking opportunity was the FUNding Friday microfunding competition. On Thursday night, participants gathered at a local eatery to ideate, write, and even draw their projects, which would be pitched the next morning.
DAY FOUR
While short, the final day of the ESIP meeting proved to be lively. The morning started with the FUNding Friday pitches and voting followed by the closing plenary and Partner Assembly Business meeting. The day concluded with the final breakout sessions, which highlighted the human and social aspects of implementing open science in an Earth data context. From the process of public comments to AI and large-language models, the breakouts illustrated how entangled human challenges are with technical and environmental ones.
Conclusion
Celebrating the organization’s twenty-fifth anniversary at the 2023 July ESIP Meeting tapped into the community’s deep roots while highlighting how much the gathering has grown and evolved. Over the next 25 years, the Earth sciences and its technology will continue to expand – and so will the user base.
To help make Earth science data and its tools accessible, ESIP is committed to making its meetings as open as possible. All ESIP meeting content is made freely available on the ESIP YouTube channel with no time limit.
In general, the ESIP community is open to all people interested in making Earth science data accessible and actionable. The community gathers twice each year in January and July, but the ESIP Collaboration Areas host monthly gatherings throughout the year. Additionally, the ESIP Lab offers seed funding for pilot projects.
Readers who wish to stay informed on the latest from ESIP, Earth science data community events, jobs, and resources are invited to subscribe to the weekly ESIP Update. The next ESIP meeting will take place in July 2024; watch the ESIP website and other social media for more details.
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Artist’s concept of a previously proposed possible planet, HD 26965 b – often compared to the fictional “Vulcan” in the Star Trek universe.
Credit: JPL-Caltech
The discovery
A planet thought to orbit the star 40 Eridani A – host to Mr. Spock’s fictional home planet, Vulcan, in the “Star Trek” universe – is really a kind of astronomical illusion caused by the pulses and jitters of the star itself, a new study shows.
Key facts
The possible detection of a planet orbiting a star that Star Trek made famous drew excitement and plenty of attention when it was announced in 2018. Only five years later, the planet appeared to be on shaky ground when other researchers questioned whether it was there at all. Now, precision measurements using a NASA-NSF instrument, installed a few years ago atop Kitt Peak in Arizona, seem to have returned the planet Vulcan even more definitively to the realm of science fiction.
Details
Two methods for detecting exoplanets – planets orbiting other stars – dominate all others in the continuing search for strange new worlds. The transit method, watching for the tiny dip in starlight as a planet crosses the face of its star, is responsible for the vast majority of detections. But the “radial velocity” method also has racked up a healthy share of exoplanet discoveries. This method is especially important for systems with planets that don’t, from Earth’s point of view, cross the faces of their stars. By tracking subtle shifts in starlight, scientists can measure “wobbles” in the star itself, as the gravity of an orbiting planet tugs it one way, then another. For very large planets, the radial velocity signal mostly leads to unambiguous planet detections. But not-so-large planets can be problematic.
Even the scientists who made the original, possible detection of planet HD 26965 b – almost immediately compared to the fictional Vulcan – cautioned that it could turn out to be messy stellar jitters masquerading as a planet. They reported evidence of a “super-Earth” – larger than Earth, smaller than Neptune – in a 42-day orbit around a Sun-like star about 16 light-years away. The new analysis, using high-precision radial velocity measurements not yet available in 2018, confirms that caution about the possible discovery was justified.
The bad news for Star Trek fans comes from an instrument known as NEID, a recent addition to the complex of telescopes at Kitt Peak National Observatory. NEID, like other radial velocity instruments, relies on the “Doppler” effect: shifts in the light spectrum of a star that reveal its wobbling motions. In this case, parsing out the supposed planet signal at various wavelengths of light, emitted from different levels of the star’s outer shell, or photosphere, revealed significant differences between individual wavelength measurements – their Doppler shifts – and the total signal when they were all combined. That means, in all likelihood, the planet signal is really the flickering of something on the star’s surface that coincides with a 42-day rotation – perhaps the roiling of hotter and cooler layers beneath the star’s surface, called convection, combined with stellar surface features such as spots and “plages,” which are bright, active regions. Both can alter a star’s radial velocity signals.
While the new finding, at least for now, robs star 40 Eridani A of its possible planet Vulcan, the news isn’t all bad. The demonstration of such finely tuned radial velocity measurements holds out the promise of making sharper observational distinctions between actual planets and the shakes and rattles on surfaces of distant stars.
Fun facts
Even the destruction of Vulcan has been anticipated in the Star Trek universe. Vulcan was first identified as Spock’s home planet in the original 1960s television series. But in the 2009 film, “Star Trek,” a Romulan villain named Nero employs an artificial ****** ***** to ***** Spock’s home world out of existence.
The discoverers
A science team led by astronomer Abigail Burrows of Dartmouth College, and previously of NASA’s Jet Propulsion Laboratory, published a paper describing the new result, “The ****** of Vulcan: NEID reveals the planet candidate orbiting HD 26965 is stellar activity,” in The Astronomical Journal in May 2024 (Note: HD 26965 is an alternate designation for the star, 40 Eridani A.)
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2 min read
Arizona Students Go on an Exoplanet Watch
The instructor, teaching assistant, and students from the online exoplanet research course meeting synchronously via Zoom.
From left to right and top to bottom: Suber Corley, Molly Simon (instructor), Kimberly Merriam, Bradley Hutson, Elizabeth Catogni, Heather Hewitt (teaching assistant), Steve Marquez-Perez, Fred Noguer, Matthew Rice, Ty Perry, Mike Antares, Zachary Ruybal, Chris Kight, Kellan Reagan.
Credit: Image collected by Molly Simon
Exoplanets, planets outside of our own solar system, hold the keys to finding extraterrestrial life and understanding the origin of our own world. Now online students at Arizona State University (****) in a new course called Exoplanet Research Experience have become exoplanet scientists by taking part in NASA’s Exoplanet Watch project.
Fifteen students from ****’s Astronomical and Planetary Sciences online degree program enroll in this course each year. These students analyze data on transits, events where the exoplanets block some of the light from their host stars. Each week, the class meets via Zoom to discuss progress, answer questions, and go over assignments. Students begin by completing a module from an online astrobiology course called Habitable Worlds, which is supported by NASA’s Infiniscope project. During the last 5 weeks of the course, students work to consolidate their work into a paper draft that is later submitted to a peer-reviewed journal with all of the students listed as co-authors.
“I think [the class] changed the course of my life…” said one student. “Not just in my confidence, but just knowing that people in the field have my back…I have tremendous support from them.”
“This course definitely helped kind of show what exactly scientists do and what the expectation is…especially for an online program, to have research opportunities is a great help…” another student said.
After participating in the course, students have gone on to participate in other research experiences, write their own first-author papers, participate in internships, and present their research at national astronomy conferences. An assessment of student outcomes was recently published in the Physics Review Physics Education Research Journal.
You don’t need to go to **** to do real exoplanet research. Anyone can help collect and analyze exoplanet data through Exoplanet Watch, whether you own a telescope or just want to help analyze data. Visit the NASA Exoplanet Watch website to get started!
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Last Updated
May 28, 2024
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The Progress 85 cargo craft is seen shortly after undocking from International Space Station on Feb. 12 as it was orbiting 260 miles above the Pacific Ocean.
NASA will provide live launch and docking coverage of a Roscosmos cargo spacecraft carrying about three tons of food, fuel, and supplies for the Expedition 71 crew aboard the International Space Station.
The unpiloted Progress 88 spacecraft is scheduled to launch at 5:43 a.m. EDT (2:43 p.m. Baikonur time) Thursday, May 30, on a Soyuz rocket from the Baikonur Cosmodrome in Kazakhstan.
Live launch coverage will begin at 5:15 a.m. on NASA+, NASA Television, the NASA app, YouTube, and the agency’s website. Learn how to stream NASA TV through a variety of platforms including social media.
After a two-day in-orbit journey to the station, the spacecraft will automatically dock to the space-facing port of orbiting laboratory’s Poisk module at 7:47 a.m., Saturday, June 1. NASA coverage of rendezvous and docking will begin at 7 a.m. on NASA+, NASA Television, the NASA app, YouTube, and the agency’s website. The spacecraft will remain docked at the station for almost six months before departing in late November for a re-entry into Earth’s atmosphere to dispose of trash loaded by the crew.
The International Space Station is a convergence of science, technology, and human innovation that enables research not possible on Earth. For more than 23 years, NASA has supported a continuous U.S. human presence aboard the orbiting laboratory, through which astronauts have learned to live and work in space for extended periods of time. The space station is a springboard for the development of a low Earth economy and NASA’s next great leaps in exploration, including missions to the Moon under Artemis and ultimately, human exploration of Mars.
Learn more about the space station, its research, and crew, at:
[Hidden Content]
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Julian Coltre Headquarters, Washington 202-358-1100 *****@*****.tld
Sandra Jones Johnson Space Center, Houston 281-483-5111 sandra.p*****@*****.tld
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4 min read
NASA’s OSIRIS-APEX Unscathed After Searing Pass of Sun
Mission engineers were confident NASA’s OSIRIS-APEX (Origins, Spectral Interpretation, Resource Identification – Apophis Explorer) spacecraft could weather its closest ever pass of the Sun on Jan. 2, 2024. Their models had predicted that, despite traveling 25 million miles closer to the heat of the Sun than it was originally designed to, OSIRIS-APEX and its components would remain safe.
The mission team confirmed that the spacecraft indeed had come out of the experience unscathed after downloading stored telemetry data in mid-March. The team also tested OSIRIS-APEX’s instruments in early April, once the spacecraft was far enough from the Sun to return to normal operations. Between December 2023 and March, OSIRIS-APEX was inactive, with only limited telemetry data available to the team on Earth.
Both these images from a camera called StowCam aboard OSIRIS-APEX show the same view taken six months apart, before (left) and after (right) the Jan. 2, 2024, perihelion. Notably, there is no observable difference on spacecraft surfaces, a good indication that the higher temperatures faced during perihelion didn’t alter the spacecraft. Another insight gleaned from the identical view in the two images is that the camera’s performance was also not affected by perihelion. StowCam, a ****** imager, is one of three cameras comprising TAGCAMS (the Touch-and-Go Camera System), which is part of OSIRIS-APEX’s guidance, navigation, and control system. TAGCAMS was designed, built and tested by Malin Space Science Systems; Lockheed Martin integrated TAGCAMS to the OSIRIS-APEX spacecraft and operates TAGCAMS.
The spacecraft’s clean bill of health was due to creative engineering. Engineers placed OSIRIS-APEX in a fixed orientation with respect to the Sun and repositioned one of its two solar arrays to shade the spacecraft’s most sensitive components during the pass.
The spacecraft is in an elliptical orbit around the Sun that brings it to a point closest to the Sun, called a perihelion, about every nine months. To get on a path that will allow it to meet up with its new target Apophis in 2029, the spacecraft’s trajectory includes several perihelions that are closer to the Sun than the spacecraft’s components were originally designed to withstand.
“It’s phenomenal how well our spacecraft configuration protected OSIRIS-APEX, so I’m really encouraged by this first close perihelion pass,” said Ron Mink, mission systems engineer for OSIRIS-APEX, based at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
Besides confirming that the January perihelion worked out according to predictions, engineers found surprises while testing spacecraft components. A couple of instruments came out better than expected after exposure to higher temperatures.
A camera that helped map asteroid Bennu and will do the same at Apophis, saw a 70% reduction in “hot pixels” since April 13, 2023, the last time it was tested. Hot pixels, which are common in well-used cameras in space, show up as white spots in images when detectors accumulate exposure to high-energy radiation, mostly from our Sun.
“We think the heat from the Sun reset the pixels through annealing,” said Amy Simon, OSIRIS-APEX project scientist, based at NASA Goddard. Annealing is a heat process that can restore function of instruments and is often done intentionally through built-in heaters on some spacecraft.
Captured on Oct. 20, 2020, as NASA’s OSIRIS-REx spacecraft collected a sample from the surface of asteroid Bennu, this series of 82 images shows the SamCam imager’s field of view as the spacecraft approached and touched Bennu’s surface. OSIRIS-REx’s sampling head touched Bennu’s surface for approximately 6 seconds, after which the spacecraft performed a back-away *****. Credit: NASA/Goddard/University of Arizona
Another welcome surprise, said Simon, came from the spacecraft’s visible and near-infrared spectrometer. Before perihelion, the spectrometer, which mapped the surface composition of Bennu, and will do the same at Apophis, seemed to have a rock from Bennu stuck inside its calibration port. Scientist suspected that some sunlight was blocked from filtering through the instrument after the spacecraft, then called OSIRIS-REx, grabbed a sample from asteroid Bennu on Oct. 20, 2020. By picking up the sample and then ******* its engines to back away from Bennu, the spacecraft stirred up dust and pebbles that clung to it.
“But, with enough spacecraft maneuvers and engine burns after sample collection,” Simon said, the rock in the calibration port appears to have been dislodged. Scientists will check the spectrometer again when OSIRIS-APEX swings by Earth on Sept. 25, 2025, for a gravitational boost.
OSIRIS-APEX is now operating normally as it continues its journey toward asteroid Apophis for a 2029 rendezvous. Its better-than-expected performance during the first close perihelion is welcome news. But engineers caution that it doesn’t mean it’s time to relax. OSIRIS-APEX needs to ******** five more exceptionally close passes of the Sun — along with three Earth gravity assists — to get to its destination. It’s unclear how the cumulative effect of six perihelions at a closer distance than designed will impact the spacecraft and its components.
The second OSIRIS-APEX perihelion is scheduled for Sept. 1, 2024. The spacecraft will be 46.5 million miles away from the Sun, which is roughly half the distance between Earth and the Sun, and well inside the orbit of Venus.
Learn more about the OSIRIS-APEX mission to Apophis
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NASA’s Goddard Space Flight Center, Greenbelt, Md.
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2 min read
Sols 4195-4198: Feels Like Summer
Navcam Right image of Fascination Turret to the north from sol 4193
NASA/JPL-Caltech
Earth planning date: Friday, May 24, 2024
The first sol of this weekend includes an extremely long, 6-hour DAN activity to measure the amount of hydrogen near the surface, in parallel with a standard midday remote science block including: ChemCam LIBS on a smooth, dark rock named “Shadow Lake,” an RMI 7-frame mosaic of the Gediz Vallis ridge base, and two small Mastcam mosaics to document the rock diversity in this area. Since we have so much power to play with, we’re actually staying awake until beginning a custom afternoon Mastcam imaging block to capture the low-sun-angle lighting on Kukenan butte and Milestone Peak ridge in front of us. Should be a butte-iful view.
On the second sol, it’s time to stretch the old arm! After another standard midday block with more ChemCam and Mastcam remote sensing, the arm will get ready for a full evening of contact science on the workspace blocks we have reachable. There’s no DRT-able rocks here, so MAHLI has two dusty targets named “Second Lake” and “Josephine Lake,” the latter of which will include a 5-frame MAHLI mosaic on the dusty layers. APXS finishes off the evening with two integrations on both Josephine Lake and Second Lake.
The third sol includes one last midday remote sensing block and an hour-long drive, which is proving tricky to plan. There’s sand, spikey rocks, float rocks, you name it we’re driving over it. If we make it all 38.41 meters, we’ll have crossed a major transition in the bedrock and gotten closer to the white stones to the west. I don’t camp much these days, but if I could go anywhere this holiday weekend it’d be where Curiosity is! Except, you know, the radioactive power source…A fourth sol is included this weekend since Curiosity is on a California holiday schedule, but we make it easy on ourselves by using it as a “REMS-only” sol where the only measurements come from REMS (our local Gale weather station). Enjoy the holiday, US-based earthlings!
Written by Natalie Moore, Mission Operations Specialist at Malin Space Science Systems
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From May 29 to July 17, 2009, for the first time in its history, each of the five partner agencies participating in the International Space Station Program had a crew member living and working aboard the orbiting facility at the same time. The ******* also marked the beginning of six-person crew habitation, greatly increasing the time available for utilization. The addition of the international partner elements and life support systems to enable the larger crew size made this 49-day event possible. Although international partner crew members routinely live and work aboard the station, its crew size now expanded to seven, having all the partners represented at the same time ******** a unique event in the space station’s history.
Left: Plaque commemorating the signing of the 1988 Inter-Governmental Agreement (IGA) governing the International Space Station partnership. Middle: Signatories of the 1998 IGA visit the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, posing in front of the Unity Node 1 module being prepared for launch. Right: ****** NASA-Roscosmos crew of STS-88, the first space station assembly mission.
The International Space Station as we know it came into existence in 1993 with the merging of Space Station Freedom, a partnership among the ******* States, Canada, Japan, and the ********* Space Agency (ESA), with Russia’s planned Mir-2 space station. In January 1998, representatives of these space agencies met at NASA’s Kennedy Space Center in Florida and signed the Intergovernmental Agreement (IGA) that established the framework for use of the orbiting laboratory. The IGA stipulated the contributions of each agency to the program that entitled them commensurate utilization of the research facility as well as long-duration crew member flight opportunities, beginning when their elements had reached the station. Separate agreements covered the flights of International Partner astronauts on space shuttle assembly flights, usually to accompany elements from their agencies. In orbit construction of the space station began 11 months after the signing of the IGA. From the first assembly mission in December 1998 to March 2001, all components belonged to either NASA or Roscosmos, a fact reflected in the makeup of early space shuttle and expedition crews. The crew of the STS-88, the first space shuttle assembly mission, included five NASA astronauts and cosmonaut Sergei K. Krikalev representing Roscosmos.
Left: STS-96 included Julie Payette, third from left, the first ********* Space Agency astronaut to visit the space station. Middle: STS-92 included Koichi Wakata, right, the first astronaut from the Japan Aerospace Exploration Agency to visit the space station. Right: The ****** NASA-Roscosmos space station Expedition 1 crew.
As early assembly continued, select space shuttle missions included International Partner crew members. The ********* Space Agency’s (CSA) first astronaut to visit the space station, Julie Payette, flew as one of the seven crew members on the second assembly flight, STS-96 in May-June 1999. The first astronaut from the Japan Aerospace Exploration Agency (JAXA) to visit the station, Koichi Wakata, flew on the fifth assembly flight, STS-92 in October 2000. When the Expedition 1 crew arrived to begin permanent habitation of the space station in November 2000, the crew consisted of NASA astronaut William M. Shepherd, and Roscosmos cosmonauts Krikalev and Yuri P. Gidenzko. The next six expeditions maintained the two-and-one crew composition, alternating between expeditions, until the impacts from the Columbia accident reduced crew size to two until Expedition 13. During this time, NASA and Roscosmos each had one crew member on board.
Left: STS-100 included Umberto Guidoni, center, the first ********* Space Agency (ESA) astronaut to visit the space station. Middle: Expedition 13 included Thomas A. Reiter, left, the first ESA astronaut to serve as a long-duration crew member on the space station. Right: STS-119 delivered Koichi Wakata, right, the first astronaut from the ********* Aerospace Exploration Agency to serve as a long-duration crewmember on the space station.
The first ESA astronaut to visit the space station, Umberto Guidoni from Italy, served as a mission specialist on STS-100 in April 2001. The seven-member crew also included CSA’s Christopher A. Hadfield, who accompanied and helped install the ********* Space Station Remote Manipulator System, and Yuri V. Lonchakov from Roscosmos, making the STS-100 crew the most internationally diverse shuttle assembly crew. Thomas A. Reiter from Germany arrived at the station aboard STS-121 in July 2006, joining Expedition 13 as ESA’s first long-duration resident crew member, and also returning the onboard crew size back to three. Wakata arrived at the station on STS-119 in March 2009 as JAXA’s first long-duration crew member, joining Expedition 19’s Lonchakov and E. Michael Fincke. Wakata’s arrival set in motion the steps leading to the unique occasion of having each of the five partners with a crew member living and working aboard the space station at the same time.
Left: Expedition 19 crew of Koichi Wakata of the Japan Aerospace Exploration Agency, left, NASA astronaut E. Michael Fincke, and Yuri V. Lonchakov of Roscosmos. Middle: Gennadi I. Padalka of Roscosmos, left, and NASA astronaut Michael M. Barratt of Expedition 19. Right: ********* Space Agency astronaut Robert B. Thirsk, left, Roman Y. Romanenko of Roscosmos, and ********* Space Agency astronaut Frank L. DeWinne of Expedition 20.
Eleven days after Wakata’s arrival, Soyuz TMA-14 delivered replacement Expedition 19 crew members NASA astronaut Michael M. Barratt and Gennadi I. Padalka of Roscosmos. On May 29, ESA’s Frank L. DeWinne and CSA’s Robert B. Thirsk, along with Roman Y. Romanenko of Roscosmos arrived aboard Soyuz TMA-15, and all five space station partners had representatives on board. Their arrival began Expedition 20 and the first ******* of six-person crew residency.
Left: Preflight crew photo of Expedition 20, the first six-person crew on the space station – Michael M. Barratt (NASA), Frank L. DeWinne (ESA), Robert B. Thirsk (CSA), Koichi Wakata (JAXA), Gennadi I. Padalka (Roscosmos), and Roman Y. Romanenko (Roscosmos). Middle: Inflight photo of the Expedition 20 crew. Right: The Expedition 20 crew members put their heads together.
The ******* of full international representation proved brief, however, lasting just 49 days, and ******** unique to this day. Wakata broke up the party on July 17 when he exchanged places with NASA astronaut Timothy L. Kopra who arrived aboard STS-127. Barratt and Padalka left on Oct. 11, replaced by another NASA-Roscosmos crew. Finally, Romanenko, DeWinne, and Thirsk left on Dec. 1, replaced after a brief gap by a crew consisting of a NASA astronaut, a JAXA astronaut, and a representative of Roscosmos.
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While NASA promotes the availability of EAP counselors at each Center, there may be reasons when, during a mental health crisis, employees do not think about EAP or cannot remember how to access.
Now, the ******** and Crises Lifeline ([Hidden Content]) is available to anyone, anytime nationwide by calling or texting three numbers from your cell phone “988”. Please check out their link for more information about the Lifeline and additional mental health resources.
For MAF Employee Assistance Program Office support contact Porter Pryor at *****@*****.tld or call or text 228-363-4910. If you need support grieving a recent or past ****** of a friend or family member, consider joining the monthly Grief Support Group for SSC/NSSC/MAF/MSFC employees (via NASA Teams) by contacting Porter Pryor.
Additional resources and education available through NASA Occupational Health’s Health4Life link:
Mission: HEALTH / Health 4 Life – Home (sharepoint.com)
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When you think about personal property, your home, clothes, and electronic devices probably come to mind. For NASA, personal property comprises government-owned government-held assets ranging from laptops to spacecraft and space station components. Managing the financial records for these assets is the responsibility of the Property Accounting Team, which includes Personal Property Accountant Britney *****.
***** sits within the Accounting Services Office of Johnson Space Center’s Office of the Chief Financial Services Officer (OCFO). She works with her colleagues to determine which NASA-held assets must be tracked over time versus expensed, and to ensure those assets are reported appropriately on Johnson’s financial statements.
Official portrait of Britney *****.NASA/Josh Valcarcel
While she has only held her civil ******** position for a few months, ***** is no stranger to Johnson or the OCFO. She completed five rotations with NASA’s Pathways Program between 2021 and 2023, including two stints as a property accounting intern for her current office. “I jumped around a bit as an intern because I really wanted to have a full understanding of NASA’s whole business,” she said. “It made things click to see the entire process of how funds are being used and recorded throughout the agency.” ***** particularly enjoyed her rotations with the Property Accounting Team and feels lucky to rejoin them as a full-time employee.
As an accounting major at the University of Houston’s C.T. Bauer College of Business, ***** planned to work for a public accounting firm or a private company when she graduated, until she stumbled upon a Pathways internship opportunity. “It was in a newsletter that my school put out, which I rarely opened, but one day I did, and I saw the call for applications,” she said. “I thought I might as well throw my hat into the ring and see where it got me.”
Britney ***** tries on a spacesuit glove and attempts basic astronaut tasks, like latching and unlatching tethers, during Johnson Space Center’s Intern, Innovation, and Industry Day on July 13, 2023.Image courtesy of Britney *****
***** believes her experience highlights an important opportunity for NASA to attract more diverse talent by reaching out to students enrolled in a wider variety of schools and academic fields. “When you think of NASA, you think of engineers and rockets. I think that’s why a lot of people in business specifically do not consider NASA as a career option, because they forget that we do need mission support operations to keep things running,” she said. “I’m really passionate about telling people about the opportunities at NASA, especially on the business side.”
That passion prompted ***** to work with ASIA ERG to host a virtual event with the University of Houston’s ****** Business Student Association last year. At the time, she was participating in the group’s education and outreach and social cohorts as a Pathways intern. ***** developed a presentation for the event that provided overviews of Johnson’s business organizations, describing each organization’s work and related career opportunities for students. She also recruited several employees from those organizations to participate in the presentation and a brief panel discussion that followed.
Britney ***** participates in a payload-capture simulation from a mockup of the International Space Station’s cupola during an intern tour of Johnson’s systems engineering simulators in March 2023. Image courtesy of Britney *****
***** said that she has never felt like a ********* on the teams she has been a part of, noting that her current team is almost entirely female and includes several people of ******, but she knows this may not be every Johnson employee’s experience. During one intern orientation session, ***** observed that she was one of five or six women in a room of 30 people. “I did not like that feeling and I expressed that to the Pathways coordinators,” she said. “I think if people don’t see someone similar to them, or someone they can relate to, it’s ******* for them to feel like they can apply.”
A self-described foodie, ***** said that showing openness and acceptance of teammates’ ******* foods is one way that every Johnson employee can promote cultural understanding and inclusivity. ****** ********* families often share stories about bringing ****** food to school for lunch as kids and getting teased by other students because it smelled different, she said, adding that she hopes the growing popularity of ******* cuisines will help put an end to those experiences. Telling her fellow Pathways interns that she enjoys trying different foods around Houston helped her build connections with them, and many approached her with questions about where they should go and what they should try. “The easiest way to start a conversation is to talk about food, and food is very integral to a culture,” she said.
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