Scientists have been finding signs of
since 2009 and, in 2018, water on the moon . Now, researchers in two new studies have detected water at one of the largest crater formations on a sunlit surface on the moon and also found that the lunar surface could be harboring plentiful patches of secret ice in “cold traps,” regions of permanently shadowed spots on the moon. confirmed the presence of water ice on the lunar surface
“If you can imagine standing on the surface of the moon near one of its poles, you would see shadows all over the place,” study author Paul Hayne, assistant professor in the Laboratory of Atmospheric and Space Physics at the University of Colorado, Boulder,
. “Many of those tiny shadows could be full of ice.” said in a statement
Related: How the Moon Formed: 5 Wild Lunar Theories | Space (Infographic)
The Clavius crater on the moon as seen by NASA’s Lunar Reconnaissance Orbiter. The SOFIA observatory has detected water ice in shadowed regions of this sunlit lunar location. (Image credit: NASA/Moon Trek/USGS/LRO)
Finding water on the moon
In one study, researchers led by Casey Honniball, a NASA postdoctoral researcher at NASA Goddard Space Flight Center in Maryland, studied water on the moon using data from NASA’s
(the Stratospheric Observatory for Infrared Astronomy) airborne telescope. With these observations, the scientists, for the first time in history, detected water on sunlit lunar surface. SOFIA
Previous work identifying water on the moon was based on a spectral signature, the distinct “barcode” that scientists use to identify materials, which is reflected as a function of wavelength. But that data doesn’t distinguish between water and hydroxyl (the OH molecule) bound to minerals on the lunar surface.
Previous observations spotted a chemical signature that could denote water or hydroxyl but, with these new observations, researchers were able to spot the unique chemical signature of water. The scientists found water near Clavius Crater, one of the largest crater formations on the moon, and also at a low-latitude portion of Mare Serenitatis.
The researchers found that this water exists at around 100 to 400 parts per million. The scientists suggest that this water is likely “sandwiched” between grains on the lunar surface, which protects it from the environment.
Trapping lunar water
This NASA diagram shows the location of Clavius crater on the moon, where the SOFIA flying observatory has detected water ice in shadowy cold traps on the sunlit lunar surface. (Image credit: NASA)
In the other study, led by Hayne, researchers used data from NASA’s
spacecraft in orbit around the moon to study the distribution of cold traps, where water could exist not just transiently, but permanently. Lunar Reconnaissance Orbiter
The scientists found a wide variety of cold traps, including “micro cold traps” as small as 0.4 inches (1 centimeter) in diameter, and evidence that there could be hundreds or even thousands of times more of these tinier “micro” cold traps than larger ones. They also found these permanent shadows at both poles.
In fact, Hayne’s team found that a whopping 15,000 square miles (40,000 square kilometers) of the lunar surface could potentially hold water. That’s more than twice the area scientists previously earmarked for water ice on the moon.
The interesting nature of these “cold traps,” is that they’re not just cold, shadowy areas where water is more likely to congregate. They are so cold that water or ice would be literally trapped there for incredible amounts of time.
“The temperatures are so low in cold traps that ice would behave like a rock,” Hayne said in the same statement. “If water gets in there, it’s not going anywhere for a billion years.”
While Hayne and his team stated that they need to actually find this ice with rovers or crewed missions to fully verify its existence, this new finding could prove monumental in humanity’s plans to not only return astronauts to the moon (NASA hopes to do that by 2024 with its Artemis program), but also to create long-term human encampments on the lunar surface as a proving ground and jumping-off point to Mars.
“If we’re right, water is going to be more accessible for drinking water, for rocket fuel, everything that NASA needs water for,” Hayne said in the same statement. “Astronauts may not need to go into these deep, dark shadows … They could walk around and find one [cold trap] that’s a meter wide and that might be just as likely to harbor ice.”
(Oct. 26) in the journal Nature Astronomy. Hayne’s work was published today in the same journal. was also published today
Email Chelsea Gohd at [email protected] or follow her on Twitter @chelsea_gohd. Follow us on Twitter @Spacedotcom and on Facebook.