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- There are deposits of water ice at the moon\u2019s poles.<\/strong> The ice is in dark, shadowed craters. <\/li>\n
- But there\u2019s less ice than previous estimates had suggested,<\/strong> a new study shows.<\/li>\n
- Researchers used NASA\u2019s ShadowCam instrument<\/strong> on the Korea Pathfinder Lunar Orbiter, also known as Danuri, to peer into the deep dark moon shadows.<\/li>\n<\/ul>\n
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Less ice in moon\u2019s shadows than thought<\/h3>\n
How much water-ice is there on the moon? That question is important for future exploration of the moon. For a time, scientists spoke of easily accessible and possibly abundant surface water-ice deposits<\/em> near the moon\u2019s poles. This would have been in permanently shadowed craters at the poles, which are the darkest, coldest regions of the moon. But now researchers at the University of Hawaii at Manoa have confirmed a 2023 study, suggesting significantly less ice at the moon\u2019s poles than we thought. The moon\u2019s poles still likely hold the moon\u2019s largest reservoirs of ice. But recent studies suggest those deposits might be smaller and more patchy than earlier estimates indicated.<\/p>\n
The researchers of the new study said in late March 2026 that ice in permanently shadowed moon craters exists only in low concentrations or small, isolated deposits. The researchers used data from NASA\u2019s ShadowCam instrument on the Korea Pathfinder Lunar Orbiter (KPLO), also known as Danuri.<\/p>\n
The findings could have an impact on future human exploration of the moon. Astronauts will need water resources, especially for any future habitats on the moon\u2019s surface. If there is less accessible water-ice, mission planners need to know now. Some water can be brought from Earth. But the more in-situ lunar water-ice, the better. Right now, the crew of Artemis 2 has looped around the moon and are now returning to Earth. They didn\u2019t land on the surface, but \u2013 starting with Artemis 4 \u2013 they soon will.<\/p>\n
The latest peer-reviewed results were published in Science Advances<\/em> on March 18, 2026.<\/p>\n
![\"Gray](\"https:\/\/earthsky.org\/upl\/2026\/04\/ShadowCam-bright-spot-water-ice-scattered-light-University-of-Hawaii-at-Manoa-March-27-2026.jpg\")
View larger. | This image shows the view of a permanently shadowed region on the left. The map on the right shows how the nearby lunar surface scatters sunlight. The bright spot (blue arrow) is water ice. The scattered sunlight helps ShadowCam to see ice deposits in the dark shadows. Image via Li et al., 2026\/ University of Hawaii at Manoa.<\/figcaption><\/figure>\n ShadowCam<\/h3>\n
ShadowCam provided the data to study the ice deposits. NASA-funded engineers led by a team at Arizona State University designed it specifically for this task. It can take images of details in the darkest moon shadows. It does this by capturing sunlight reflected off nearby crater walls.<\/p>\n
Contrary to expectations, the researchers found no evidence of widespread water ice in the permanently shadowed regions at the moon\u2019s poles. This was for concentrations above 20-30% by weight. <\/p>\n
How about elsewhere on the moon? Previous studies had suggested more widespread lunar ice deposits. And it\u2019s still possible some water-ice exists at mid-latitudes on the moon, but probably only in small, isolated pockets. What\u2019s more, this \u201cwidespread\u201d ice is thought to be not only extremely sparse, but also likely locked in glass beads or bound in minerals. That\u2019s in contrast to the thick ice deposits scientists once hoped existed at the moon\u2019s poles.<\/p>\n
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ShadowCam observations indicate that relatively pure water ice is likely absent from the moon\u2019s permanently shadowed regions, suggesting lunar ice may be less abundant than previously thought. doi.org\/hbtbs4<\/p>\n
\u2014 Science X \/ Phys.org (@sciencex.bsky.social) 2026-03-20T15:20:20-04:00<\/p>\n<\/blockquote>\n
Less ice than 1st thought<\/h3>\n
So the new analysis of ShadowCam images did find some water ice at the moon\u2019s poles, just not a lot of it. In the high-resolution images, the researchers identified a few small deposits, about 65-165 feet (20-50 meters) in size.<\/p>\n
That\u2019s a lot smaller than previous estimates had suggested.<\/p>\n
![\"Smiling](\"https:\/\/earthsky.org\/upl\/2026\/04\/Shuai-Li-University-of-Hawaii-at-Manoa.jpg\")
Lead author Shuai Li is an associate researcher at the Hawaii Institute of Geophysics and Planetology at the University of Hawaii at Manoa. Image via University of Hawaii at Manoa.<\/figcaption><\/figure>\n Using scattered light to see ice<\/h3>\n
ShadowCam is designed to peer into the darkest shadows on the moon. And it can use scattered sunlight to help see details in the darkness.<\/p>\n
Rocks and dust scatter light differently than ice does. Rocks and dust send more light back toward the direction from which it came. But water ice scatters light forward. And the potential icy spots did exhibit both high reflectance and unique forward-scattering properties. These optical signatures are consistent with ice concentrations greater than 10%.<\/p>\n
Lead author of the new study is Shuai Li, an associate researcher at the Hawaii Institute of Geophysics and Planetology in the University of Hawaii\u2019s Manoa School of Ocean and Earth Science and Technology. He said:<\/p>\n
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Water ice doesn\u2019t just make the surface brighter. The way it scatters light is a fingerprint. By using stereo observations to look at these shadowed craters from different perspectives, we were able to detect this distinctive forward-scattering behavior for the first time.<\/p>\n
I thought we\u2019d find more bright, ice-rich areas. So the small number we found was a bit surprising. But the forward-scattering signal was a true and exciting surprise because it required stereo observations that were only possible during the extended mission.<\/p>\n<\/blockquote>\n
![\"Partial](\"https:\/\/earthsky.org\/upl\/2026\/04\/water-ice-Mercury-MESSENGER-April-16-2015.png\")
View larger. | This view from NASA\u2019s MESSENGER spacecraft in 2015 shows deposits of water ice at Mercury\u2019s north pole (marked by yellow spots). Image via NASA\/ Johns Hopkins University Applied Physics Laboratory\/ Carnegie Institution of Washington.<\/figcaption><\/figure>\n Distinct difference from Mercury and Ceres<\/h3>\n
The findings are a bit of a mystery. Some other airless bodies, such as Mercury and Ceres, do have substantial water ice at their poles. And that\u2019s despite the fact that the moon\u2019s poles are colder than on Mercury or Ceres. Ceres is far out in the asteroid belt between Mars and Jupiter. But how could Mercury have any<\/em> ice, being so close to the sun? <\/p>\n
It\u2019s because Mercury is virtually airless. Since there\u2019s no atmosphere, the heat on the dayside doesn\u2019t get trapped and transported to the nightside. So the nightside remains extremely cold, down to -292 degrees Fahrenheit (-180 degrees Celsius) even though Mercury is the closest planet to the sun.<\/p>\n
The new study also suggests that the hot dayside surface helps create more water from the solar wind when it impacts Mercury. On the other hand, space weathering from solar wind, volcanic degassing and mixing of rock layers from impacts might tend to destroy or bury surface ice.<\/p>\n
Keep searching<\/h3>\n
The search for more water ice on the moon will continue. Notably, many of the small deposits that scientists have found are near young craters. So it\u2019s possible there\u2019s more ice below the surface.<\/p>\n
This would be good news for future crewed missions to the moon. Water will be essential for any long-term habitation, as noted earlier. And while the results to date suggest relatively few pockets of water ice on the surface, the research team does expect to find more of them until 2028. Early that year, the Danuri probe will run out of battery power during a lunar eclipse.<\/p>\n
There is also a good new article in the New York Times<\/em>, with visualizations, of why humans\u2019 return to the moon is important. And the role that water plays in the design of those missions.<\/p>\n
Bottom line: Ice in moon\u2019s shadows is scarce, NASA\u2019s ShadowCam finds, with only small, scattered deposits instead of the abundant ice once expected.<\/p>\n
Source: Searching for surficial water ice in lunar permanently shaded regions (PSRs) with ShadowCam<\/p>\n
Via University of Hawaii at Manoa<\/p>\n
Read more: There may be less water ice on the moon than we thought<\/p>\n
Read more: Lunar Flashlight to seek ice on the moon<\/p>\n
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\n - But there\u2019s less ice than previous estimates had suggested,<\/strong> a new study shows.<\/li>\n