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Landsat Reveals Reservoir Changes and Bathymetry
2026-03-31 14:30
Communities worldwide rely on reservoirs for drinking water, hydroelectric power, irrigation, and more. These critical freshwater resources are affected by seasonal and long-term changes; water levels in reservoirs can dip during hot summer months or due to prolonged drought, or can flood after a particularly strong storm. Despite their importance, there are key gaps in our knowledge of reservoir structure and dynamics. Two recent papers use Landsat data to help fill in those gaps.
Researchers from the University of Southampton used Landsat data to identify where water advanced or retreated from 1984 to 2022, creating the first global dataset pinpointing the exact year of permanent surface water changes—such as when a reservoir formed or a stream dried up. The study can track changes in streams as narrow as 30m and lakes as small as 900m2. In a separate study, Texas A&M University researchers used Landsat data to build a global bathymetry dataset called ‘3D-LAKES’ that enables water managers to estimate reservoir storage capacity.
The above animation shows the Amistad Reservoir on the border of Texas and Mexico. It uses a natural-color Landsat image from 1985 overlaid onto a Copernicus Digital Elevation Model (DEM) and bathymetric data from the 3D-LAKES dataset. Vertical relief is exaggerated by a factor of four to emphasize topographic features and landforms. The reservoir is jointly managed by the U.S. and Mexico through the International Boundary and Water Commission (IBWC) for flood control, recreation, and hydroelectric power. Despite its importance to the two countries, the reservoir is slowly shrinking. The surface water transitions dataset shows the water levels retreating in recent decades, with significant recessions between 2012 and 2016. The 3D-LAKES dataset reveals the underwater shape of the reservoir. Together, these datasets complement the in situ water level and conditions data collected throughout the year.
Tracking Surface Water Transitions
Human communities both shape and are shaped by water. We divert rivers, build reservoirs, and construct artificial islands, while natural forces—storms, meandering rivers, and rising seas—reshape our waterways and coastlines. With satellite data as an important tool to study ecosystem dynamics, researchers have begun to build a more comprehensive global understanding of where water is and how it shifts over time. In their water transitions study, the University of Southampton team focused specifically on permanent changes in lakes, rivers, coastlines, and other water bodies worldwide.
Looking at long-term changes in surface water can help scientists understand drivers of change, said Gustavo Willy Nagel, lead researcher on the paper. Knowing when a lake began receding helps water managers investigate whether drought, irrigation, or other forces caused the decline.
Scientists, policymakers, and water managers can explore the interactive dataset that Nagel and his team created to visualize changes close to home as well as stark global impacts such as the drying of the Aral Sea, the lakes created by melting glaciers in Tibet, and the building of the Palm Islands in Dubai.
Assessing long-term changes in surface water presents a key challenge, as surface water is extremely dynamic. Seasonal fluctuations and climatic forces mean that rivers, lakes, and coastlines are changing all the time. To identify permanent water changes while excluding seasonal fluctuations, the researchers ran two algorithms. The first detected whether the water body was advancing or retreating over the study period using the Modified Normalized Difference Water Index (mNDWI), which uses the shortwave-infrared (SWIR) instead of the near-infrared (NIR) band. The second algorithm used the Green_Red Normalized Difference Water Index (grNDWI)—an index proposed by the research team—to identify the precise year that the water body transitioned. A change was considered “permanent” if it did not revert to its previous condition during the study period of 1984 to 2022.
“The dataset is showing, for every location on the planet, areas where water advanced or retracted and the year of that change,” said Nagel.
Visualizing Lakes in 3D
Landsat can help us monitor surface water. But what about what’s under the surface?
In a study published in Scientific Data in October 2025, researchers from Texas A&M University fused Landsat and ICESat-2 data to create bathymetry maps for half a million global lakes and reservoirs. The research team, led by Huilin Gao, used Landsat imagery to calculate the surface area of water bodies, delineate where water meets land, and track how water extent changes over time. Then, they combined laser altimetry from the ICESat-2 satellite to infer the underwater bathymetry of water bodies. With these measurements, the scientists refined area-elevation relationships, a key metric for understanding how water storage changes with water level.
The resultant dataset, dubbed 3D-LAKES, is static, as bathymetry does not tend to change significantly year to year. “This dataset can support many applications, from monitoring water storage to refining hydrological models,” said Chi-Hsiang Huang, the study’s lead author.
3D-LAKES can be used in combination with Landsat-based maps—like the surface transition research or the popular Global Surface Water dataset—to help water resource managers assess the volume of water held in a reservoir or lake. This allows them to evaluate flood risk, map habitat, or calculate how much water is available during a particularly dry season. Researchers can also track changing water volume over time, helping understand long-term trends in water storage.
Measuring underwater topography has historically been expensive and impractical at global scales. The 3D-LAKES dataset now provides researchers and managers with crucial bathymetric data for lakes and reservoirs worldwide. “With this new dataset, we can achieve a more comprehensive understanding of the impacts of lakes and reservoirs on regional climatology, water security, and ecosystem services,” said Gao. Both studies provide water and land managers with unprecedented tools for resource management and planning—from the Amistad Reservoir to the Australian Outback to the Brazilian Amazon.
Explore More
In two recent studies, researchers used Landsat data to fill key gaps in our knowledge of reservoir structure and dynamics.
A network of meltwater lakes and drainage channels made an Antarctic ice shelf known for its blue ice areas even…
The activity of herring around Vancouver Island in British Columbia brightened coastal waters enough to be detectable from space.
Fires Tear Through Nebraska Grasslands
2026-03-31 04:01
February 28, 2026
March 29, 2026
On the afternoon of March 12, 2026, a wildland fire ignited in Morrill County, Nebraska. Within 12 hours, high winds had propelled flames approximately 70 miles (110 kilometers) east-southeast across the prairie. The Morrill fire would burn over 640,000 acres (260,000 hectares) within a week, becoming the largest wildfire in the state’s history.
This image (right) shows the extent of recently burned areas near the North Platte River in western Nebraska on March 29. By this time, authorities reported the Morrill fire was 100 percent contained. However, crews were working to contain two smaller blazes immediately to the northeast, the Ashby and Minor fires, which ignited early on March 26. For comparison, the left image was acquired on February 28, before the fires. Both are false-color to better distinguish the burned areas.
The fires occurred amid an active start for wildfires in the U.S. in 2026. The National Interagency Fire Center (NIFC) reported that 15,436 fires had burned 1,510,973 acres nationwide as of March 27. That’s far higher than the 10-year average—9,195 fires burning 664,792 acres—for the same period.
The Great Plains have been particularly prone to fire in early 2026. Exceptionally dry fuels contributed to rapid fire growth and other unusual fire behavior for the time of year, according to the NIFC. Throughout the winter, much of the region saw warmer and windier-than-average conditions, as well as less than 50 percent of average precipitation over a 90-day period, leading to low soil moisture and grass fuels that were primed to burn.
The fires in western Nebraska affected large areas of ranch and pasture lands, destroyed homes, barns, and fences, and injured or killed livestock, according to news reports. The Morrill fire also burned much of the Crescent Lake National Wildlife Refuge in the Nebraska Sandhills, an area of grasslands, wetlands, and dunes used by migratory birds. Despite the fires, reports indicate that hundreds of thousands of sandhill cranes are still making their annual migration through the Platte River valley.
NASA Earth Observatory images by Lauren Dauphin, using VIIRS data from NASA EOSDIS LANCE, GIBS/Worldview, and the Joint Polar Satellite System (JPSS). Story by Lindsey Doermann.
References & Resources
- InciWeb (2026) Morrill Fire. Accessed March 30, 2026.
- National Interagency Fire Center (2026, March 27) National Fire News. Accessed March 30, 2026.
- National Interagency Fire Center (2026, March 20) Fuels and Fire Behavior Advisory: Northern and Central Great Plains. Accessed March 30, 2026.
- Nebraska Public Media (2026, March 30) ‘It’s like a death’: Grief, hope and resilience after fire ravages Nebraska Sandhills. Accessed March 30, 2026.
- The Washington Post (2026, March 24) Wildfires rip through unusual parts of U.S., raising fears of a brutal season. Accessed March 30, 2026.
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Sendoff for Artemis II Crew
2026-03-30 18:18
From left to right, NASA astronauts Andre Douglas, Victor Glover, and Christina Koch, CSA (Canadian Space Agency) astronauts Jenni Gibbons, NASA astronaut Reid Wiseman, and CSA astronaut Jeremy Hansen pose for a photo before the Artemis II crew proceed to a media event on March 27, 2026. Douglas and Gibbons are the backup crew members for the mission; they would join the crew if a NASA or CSA astronaut, respectively, is unable to take part in the flight.
Artemis II is NASA’s first crewed mission under the Artemis program and will launch from the agency’s Kennedy Space Center in Florida. It will send Wiseman, Glover, Koch, and Hansen on an approximately 10-day journey around the Moon. Among other objectives, the agency will test the Orion spacecraft’s life support systems for the first time with people and lay the groundwork for future crewed Artemis missions.
Image credit: NASA/Josh Valcarcel
Seeing Blue During Schirmacher’s Summer Melt Season
2026-03-30 04:01
Summer is a busy season at Schirmacher Oasis, a rocky, ice-free plateau in Queen Maud Land, East Antarctica. Located near the grounding line of Nivlisen Ice Shelf and about 100 kilometers (60 miles) from the open waters of the Lazarev Sea, the “oasis” of land amid an otherwise continuous expanse of ice is home to dozens of small ice-covered freshwater lakes and two research stations.
It’s the season when all-white snow petrels are sometimes spotted soaring over the oasis, and fuzzy south polar skua and Wilson’s storm petrel chicks grow up in sheltered crevices on its cliffs and ridges. Under constant sunlight, the plateau’s freshwater lakes come to life, supporting cyanobacterial growth and teeming with microscopic tardigrades, rotifers, and nematodes. At times, groups of Adélie penguins toddle through the oasis and attempt to breed.
The summer months are also when temperatures creep just above freezing long enough for expansive networks of seasonal melt ponds and drainage channels on and within the surrounding ice to fill with bright blue meltwater that flows north onto and across the Nivlisen Ice Shelf. The satellite image above shows seasonal melt on January 6, 2026, during the peak of the 2026 melt season.
The Nivlisen Ice Shelf is a floating tongue that forms as glacial ice flows off Antarctica and into the waters of the Lazarev Sea. The many blue ice areas found around the oasis are snow-free areas where old, compressed glacial ice with few air bubbles has been exposed by powerful katabatic winds and sublimation. This dense ice absorbs red wavelengths of light and reflects blue wavelengths, making it appear blue. Blue ice areas are rare in Antarctica, covering about 1 percent of the continent’s surface.
“The image captures the Nivlisen Ice Shelf during a phase of strong, system-wide hydrological connectivity,” said Geetha Priya Murugesan, a remote sensing scientist with the Centre for Incubation, Innovation, Research and Consultancy (CIIRC) and Jyothy Institute of Technology in Bengaluru, India. Such features aren’t always visible in optical satellite imagery, she added, noting that they are often frozen, buried under snow, or drained. “This image is notable because the ‘cerulean veins’ we see on the surface align with a deeper, persistent plumbing system that we monitor with radar.”
Murugesan and colleagues have analyzed decades of satellite data and conducted several years of field research in the area, including in 2026. Their work shows that since 2000, the surface melting caused by seasonal melt ponds and channels on the ice shelf has grown in depth, area, and volume. The depth and volume of melt features grew by a factor of 1.5, while their surface area increased by a factor of 1.2.
Murugesan thinks that the visibility of the drainage network in images like these hints at a deeper vulnerability of the ice shelf. The drainage channels trace preexisting structural weaknesses, including crevasses, that act as “hydraulic pathways” that concentrate meltwater in vulnerable zones near the grounding line, where it can weaken the ice shelf, Murugesan said.
The researchers have also linked peak melting periods like this one to atmospheric rivers and foehn winds that enhance surface melting and help route meltwater through the drainage networks. The dark color—low albedo—of the many blue ice areas surrounding the oasis contributes to drainage events by making ice surfaces less reflective, warmer, and thus more prone to summer melting, Murugesan added.
While Murugesan and colleagues are currently conducting a detailed analysis of the 2026 melt season to determine how it compares to past years, she said it appears to be a “strong melt event consistent with elevated melt conditions.”
NASA Earth Observatory images by Michala Garrison, using Landsat data from the U.S. Geological Survey. Story by Adam Voiland.
References & Resources
- Chen, J., et al. (2026) Interannual and Seasonal Evolution of Supraglacial Channel Networks on Nivlisen Ice Shelf, East Antarctica. Egusphere, preprint.
- Chouksey, A., et al. (2021) Mapping and identification of ice-sheet and glacier features using optical and SAR data in parts of central Dronning Maud Land (cDML), East Antarctica. Polar Science, 30, 100740.
- EGU Blogs (2024, June 21) Blue ice in Antarctica: small extent, big science. Accessed March 26, 2026.
- Murugesan, G.P., et al. (2026) Decadal Evolution of Supraglacial Hydrology on the Nivlisen Ice Shelf: From Localized Ponding to Spatially Synchronized Hydrofracture Forcing (2015-2026). Earth ArXiv, preprint.
- Murugesan, G.P., et al. (2025) Surface Melt Assessment of Nivlisen Ice Shelf, East Antarctica via SAR Satellite Data Analysis During Austral Summer 2022-2023. In: Shukla, P.K., et al. Computer Vision and Robotics. CVR 2024. Algorithms for Intelligent Systems. (Springer, Singapore.)
- Murugesan, G.P., et al. (2024) Monitoring of Melt Ponds and Supra-Glacial Lakes over Nivlisen Ice Shelf, East Antarctica, Using Satellite-Based Multispectral Data. Civil Engineering Innovations for Sustainable Communities with Net Zero Targets.
- Murugesan, G.P., et al. (2023) Decoding the Dynamics of Climate Change Impact: Temporal Patterns of Surface Warming and Melting on the Nivlisen Ice Shelf, Dronning Maud Land, East Antarctica. Remote Sensing, 15(24), 5676.
- Pande, A., et al. (2020) Past records and current distribution of seabirds at Larsemann Hills and Schirmacher Oasis, east Antarctica. Polar Record, 56, e40
- Ryan, P.G. (2024) Notes on the birds of Schirmacher Oasis. Marine Ornithology, 52(2).
- Tollenaar, V., et al. (2024) Where the White Continent Is Blue: Deep Learning Locates Bare Ice in Antarctica. Geophysical Research Letters, 51(3), e2023GL106285.
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Stay up-to-date with the latest content from NASA as we explore the universe and discover more about our home planet.
Sea ice around the southernmost continent hit one of its lowest seasonal highs since the start of the satellite record.
Nearly 50 years ago, the first Landsat satellite captured the rare sight of Mid-Atlantic waterways frozen over.
The glacier in southeastern Svalbard pulses with the changing seasons, speeding up and slowing its flow toward the sea.
I Am Artemis: Erik Richards
2026-03-27 21:30
I Am Artemis: Erik Richards
Listen to this audio excerpt from Erik Richards, Near Space Network Mission Manager:
0:00 / 0:00
For Erik Richards, supporting NASA’s first crewed Artemis mission to the Moon and back is the culmination of a career spent helping spacecraft communicate with Earth.
Like many kids who grew up at the height of the Space Shuttle Program, Richards dreamed of spaceflight — a dream that eventually took him from the remote McMurdo Station in Antarctica to NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
I’ve spent my entire career moving across NASA’s network. At its core, it's an organization of people and interactions. I always say it’s not what you know, but who you know that makes the network go. There are so many opportunities to learn.
Erik Richards
NASA Near Space Network Mission Manager
Most recently, his work has taken him to the agency’s White Sands Complex in New Mexico — and into a key role in America’s return to the Moon. As mission manager for NASA’s Near Space Network, Richards ensures the Artemis II crew and Orion spacecraft can communicate with Earth during liftoff and early orbit, through re-entry and splashdown.
The Near Space Network consists of an interconnected web of relay satellites and more than 40 government and commercial ground stations stretching from Bermuda to South Africa. Together with NASA’s Deep Space Network, this global infrastructure is critical to keeping the Orion spacecraft and its four astronauts connected to mission control throughout their roughly 10-day mission.
It’s Richards’ job to keep the many pieces of the Near Space Network operating in sync across multiple missions. He compares the system to a telephone network on Earth: invisible when everything works, critical when it doesn’t. Without communications, there’s no contact with home.
Working with the Deep Space Network, Artemis II will rely on the Near Space Network for navigation, real-time voice communications, data transfer, and situational awareness. For Richards and the teams supporting NASA’s networks, having crew aboard makes their work more essential than ever.
Richards’ professional journey across the Near Space Network has been key to coordinating communications across the Artemis’ three flight segments, dozens of ground stations, and hundreds of people supporting humanity’s return to the Moon.
Artemis isn’t just one spacecraft. It’s multiple elements working together across every mission phase, each with its own communications demands. My role is making sure communications succeed for the rocket, the Orion spacecraft, and ultimately the crew.
Erik Richards
NASA Near Space Network Mission Manager
In the months leading up to launch, Richards has supported extensive testing, requirements development, and readiness operations to prepare the network. During the mission, he will be on console, monitoring data flow and coordinating support across NASA and its partner sites worldwide.
The support Richards and his team provide Artemis II will carry forward to Artemis III and NASA’s goal of a sustained human presence on the lunar surface. For Richards, being part of that progression — from shuttle to the Moon and eventually Mars — connects him to his childhood love of spaceflight.
“The most exciting part about the Artemis campaign is being part of something greater,” said Richards. “You don’t have to be an astronaut to contribute to the future of human exploration.”
About the Author
Korine Powers
Korine Powers, Ph.D. is a writer for NASA's SCaN (Space Communications and Navigation) Program office and covers emerging technologies, commercialization efforts, exploration activities, and more.
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