Video report by ITV News Correspondent Stacey Foster
Water has been discovered on the sunlit surface of the Moon for the first time.
But what are the implications of Nasa’s findings, and what do they mean for the future of lunar exploration?
The short answer is no.
Water molecules have been discovered in the Moon’s southern hemisphere, at the Clavius Crater.
The crater and its surrounding region radius is one of the largest craters visible from Earth.
The molecules, which are thought to be trapped in glass-like beads, are so spread apart that they do not form, ice, or liquid water.
Water is critical for deep space exploration. It can be used for astronauts to drink, turned into oxygen for them to breathe and could be a fuel supply.
Water is heavy, and is therefore expensive to launch from the surface of the Earth.
“Anytime we don’t need to pack water for our trip, we have an opportunity to take other useful items with us,” said Jacob Bleacher, chief exploration scientist for Nasa’s human exploration and operations mission directorate.
“Being able to use water that is already at the moon would be a big help for us in exploring the Moon.”
It is not yet known, however, whether the water detected on the sunlit surface of the Moon is accessible for use as a resource.
Nasa’s Stratospheric Observatory for Infrared Astronomy (Sofia) found the molecules.
Flying at altitudes of up to 45,000 feet, the modified Boeing 747SP jetliner with a 106-inch diameter telescope reaches above 99% of the water vapour in Earth’s atmosphere.
Using its Faint Object infraRed CAmera for the Sofia Telescope (Forcast), Sofia was able to pick up the specific wavelength unique to water molecules.
The data reveals water in concentrations of 100 to 412 parts per million – roughly equivalent to a 12-ounce bottle of water – trapped in a cubic metre of soil spread across the lunar surface.
The experts say it is an important discovery because now they know the water exists outside some of the dark craters that are really hard to get into and really hard to operate in.
Daytime temperatures near the lunar equator reach 120C, while night time temperatures can be as low as minus 130C, and the Moon’s poles are even colder.
Casey Honniball, the lead author who published the results from her graduate thesis work at the University of Hawaii at Manoa in Honolulu, explained the water is protected by the beads it is trapped in.
She said: “We believe the water is being stored inside the micro meteorite impact glass beads, and these would shelter the water from being lost to space or migrating to the lunar pole.
“And this would mean that without a lunar atmosphere the water could stay on the surface of the Moon.”
So as it is locked in the glass beads, it is able to withstand the harsh conditions of the Moon.
Sofia’s follow-up flights will look for water in additional sunlit locations and during different lunar phases to learn more about how the water is produced, stored, and moved across the Moon.
The data will add to the work of future moon missions, such as Nasa’s Volatiles Investigating Polar Exploration Rover (Viper), to create the first water resource maps of the Moon for future human space exploration.