Skip to main content

Ice on the moon may be billions of years old, new study shows

If the moon has enough water, and if it’s reasonably convenient to access, future explorers might be able to use it as drinking water or to convert it into hydrogen and oxygen for rocket fuel or oxygen to breathe. NASA’s Goddard Space Flight Center

An important step toward more long-term manned missions to the moon is locating a source of water. If water is available to future astronauts on the moon, they will be able to stay much longer than if they have to carry a large amount of heavy water with them on their trip from Earth. Recent research has suggested that there could be frozen water in craters near the moon’s poles, and there may even be minute amounts of liquid water which travel across the moon’s surface. But scientists aren’t sure whether this water originates, so it’s hard to predict where it could be found.

Now, a new study has investigated the age and origin of lunar water and found it could have multiple different sources. Some of the ice deposits seem to be billions of years old, while others are more recent.

Recommended Videos

The researchers used data from the Lunar Reconnaissance Orbiter to look at craters near the south pole where evidence of water has been found. They analyzed the age of these craters and found that the ice within them could not be older than 3.1 billion years. More evidence for the age of the ice comes from the patterns of deposits, which are patchy across the floor of the crater. This suggests the deposits have been impacted by small meteorites over a long period of time.

The researchers also looked for more clues about the age of the deposits by analyzing their depth. “There have been models of bombardment through time showing that ice starts to concentrate with depth. So if you have a surface layer that’s old, you’d expect more underneath,” Brown University researcher Ariel Deutsch explained in a statement.

Most of the deposits analyzed did indeed appear to be ancient. But there were also deposits in some smaller craters with sharper edges that appeared to be more recent. “That was a surprise. There hadn’t really been any observations of ice in younger cold traps before,” Deutsch said.

These findings could help future manned lunar missions by determining the availability of resources. “When we think about sending humans back to the Moon for long-term exploration, we need to know what resources are there that we can count on, and we currently don’t know,” co-author of the study, Professor Jim Head of Brown University, said in the same statement. “Studies like this one help us make predictions about where we need to go to answer those questions.”

The research is published in the journal Icarus.

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
Radiation levels on the moon are 200 times the levels on Earth, study shows
2020 tech trends for the decade nasa artemis moon mission

The moon is constantly bombarded by cosmic radiation and, unlike the Earth which has a magnetic field to keep it safe, there is no protection on the lunar surface from these potentially dangerous particles.

Now, a study has measured the levels of radiation on the moon for the first time and found they are 200 times the levels here on Earth. However, experts say that the levels are still safe for long-term exploration of the moon.

Read more
Solar Orbiter’s first images show the sun is covered in tiny ‘campfire’ flares
Artist's impression of ESA's Solar Orbiter

Closer than ever: Solar Orbiter’s first views of the Sun

The recently-launched Solar Orbiter spacecraft has taken the closest-ever images of the sun, showing newly-discovered features called "campfires" which appear to be miniature solar flares.

Read more
Discovery of 139 new minor planets in our solar system may help find Planet Nine
The Blanco Telescope dome at the Cerro Tololo Inter-American Observatory in Chile, where the Dark Energy Camera used for the recently completed Dark Energy Survey was housed.

Astronomers have discovered 139 new "minor planets" in our solar system, beyond the orbit of Neptune. These small objects could provide clues as to whether the mysterious Planet Nine, a hypothesized planet orbiting our sun which has not been directly observed, does really exist.

The minor planets were discovered using data from the Dark Energy Survey, a six-year project mainly focused on understanding dark energy. But the data collected is also useful for finding new bodies in our solar system, particularly trans-Neptunian objects or TNOs, because the survey covers a wide region of the sky in great detail.

Read more