Author: By John von Radowitz, Press Association
But there’s not a drop to drink – for the water does not exist in liquid form
but is bound up with minerals in lunar soil.
Nevertheless experts believe the discovery could have major implications for
the future of moon exploration.
With suitable technology water could be extracted from moon dust and stored
for use in lunar bases.
Hydrogen and oxygen, the two components of water, could also provide a
valuable source of fuel and breathable air.
Scientists believe it got there as a result of bombardment by nuclear
particles pouring out of the Sun.
Part of the Solar Wind consists of hydrogen atom nuclei. Striking the lunar
surface, these are thought to have combined with oxygen in the rocks and
soil to form water. About 45% of moon soil and rocks consists of oxygen,
mostly bound up in silicates.
The new findings suggest that early assumptions about moon rocks brought home
to Earth by the Apollo astronauts were wrong.
The samples, collected during the Apollo missions between 1969 and 1972, were
found to bear traces of water. But experts at the time dismissed the
finding, believing it to be due to contamination by air leaking into the
Scientists were forced to think again after examining new data from an Indian
spacecraft, Chandrayaan-1, which ceased operating last month.
A US instrument on the orbiter called the Moon Mineralogy Mapper, or “M3”,
measured light reflection patterns to analyse the composition of a thin
layer of lunar top soil.
It detected wavelengths characteristic of water, and another type of
hydrogen-oxygen chemical bonding called hydroxil.
Subsequently the findings were confirmed by similar recorded data from two
missions by the American space agency Nasa.
The Cassini spacecraft made a flyby of the Moon in 1999 on its way to Saturn,
and the Deep Impact probe now en route to a comet observed the Moon in June.
Both found further evidence of water over much of the lunar surface. How much
might be present is unclear, but the quantities could be in the region of a
quart of water per ton of soil.
The findings, published today in the journal Science, have excited experts
around the world.
Dr Marc Norman, from the Australian National University in Canberra, who
previously worked at Nasa’s moon sample laboratory at the Johnson Space
Centre in Houston, Texas, said: “This is a major discovery that will
have a significant impact on international plans for exploration of the
Moon. China and the US in particular will have significant interest in the
distribution, size, and origin of this potential resource for human
“One caveat – it is important to realise that this is not liquid water
like our oceans, nor ice like on the Mars polar caps. Rather this water on
the Moon appears to be bound up with minerals such that it is stable in the
airless and low-gravity environment of the Moon. So we won’t be able to pump
it like groundwater, but will have to collect fairly large volumes of lunar
soil, then extract and store the water for use.
“This discovery will provide a huge boost to plans for devising robotic
exploration and processing systems that work in the extremes of temperature,
gravity, and dust found on the Moon, and to research into the origin of
volatiles on the Moon.”
Scientists describing the Chandrayaan-1 findings in the online edition of
Science said harvesting water, oxygen and hydrogen from lunar soil was now “a
serious option for long-term human activities”.
Professor Larry Taylor, a member of the team from the University of Tennessee
at Knoxville, US, explained how scientists made a mistake when they
identified traces of water in the Apollo moon rocks.
Most of the boxes containing the rocks had leaked, leading experts to suspect
“To some extent, we were fooled,” said Prof Taylor. “Since the
boxes leaked, we just assumed the water we found was from contamination with
“The isotopes (versions of atoms) of oxygen that exist on the Moon are
the same as those that exist on Earth, so it was difficult if not impossible
to tell the difference between water from the Moon and water from Earth.
“Since the early soil samples only had trace amounts of water, it was
easy to make the mistake of attributing it to contamination.”
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