What we have learned is that the existence of water at the pole
cannot be discounted and in fact must be entertained. No one is
going to get this data on Venus.
That is good enough for now. Hopefully we do not have to return in
order to find out.
Otherwise this is still a long way from outright confirmation.
Huge Moon Crater's Water Ice Supply Revealed
Date: 20 June 2012 Time: 02:44 PM ET
This shaded relief image shows the moon's Shackleton Crater, a
21-km-wide crater permanently shadowed crater near the lunar south
pole. The crater’s interior structure is shown in false color based
on data from
NASA's LRO probe. Image released June 20, 2012.
This split-view image
shows an elevation map (left) and shaded relief (right) of the
21-kilometer-wide Shackleton Crater. The crater’s structure is
shown in false color from data by NASA's LRO probe. Image released
June 20, 2012.
CREDIT: NASA/GSFC/SVS
A crater on the moon
that is a prime target for human exploration may be tantalizingly
rich in ice, though researchers warn it could just as well hold none
at all.
The scientists
investigatedShackleton
Crater, which sits almost directly on the moon's
south pole. The crater, named after the Antarctic explorer Ernest
Shackleton, is more than 12 miles wide (19 kilometers) and 2 miles
deep (3 km) — about as deep as Earth's oceans.
The interiors of
polar craters on the
moon are in nearly perpetual darkness, making
them cold traps that researchers have long suspected might be home to
vast amounts of frozen water and thus key candidates for human
exploration. However, previous orbital and Earth-based observations
of lunar craters have yielded conflicting interpretations over
whether ice is there.
For instance, the
Japanese spacecraft Kaguya saw no discernible signs of ice within
Shackleton Crater, but NASA's LCROSS probe analyzed Cabeus Crater
near the moon's south pole and found it measured as much as 5 percent
water by mass.
Now scientists who
have mapped Shackleton Crater with unprecedented detail have found
evidence of ice inside the crater.
NASA's Lunar
Reconnaissance Orbiter essentially illuminated the crater's interior
with infrared laser light, measuring how reflective it was. The
crater's floor is more reflective than that of other nearby craters,
suggesting it had ice.
"Water ice in amounts of up to 20 percent is a viable
possibility," study lead author Maria Zuber, a geophysicist at
the Massachusetts Institute of Technology,
told SPACE.com.
Don't get your hopes up, though. The amount of ice
in Shackleton Crater "can also be much
less, conceivably as little as zero," Zuber cautioned.
This uncertainty is
due in part to what the researchers saw in the rest of the crater.
Bizarrely, while the crater's floor was relatively bright, Zuber and
her colleagues observed that its walls were even more reflective.
Scientists had
thought that if highly reflective ice were anywhere in a crater, it
would be on the floor, which live in nearly permanent darkness. In
comparison, the walls of Shackleton Crater occasionally see daylight,
which should evaporate any ice that accumulates.
The researchers think
the reflectance of the crater's walls is due not to ice, but to
quakes. Every once in a while, the moon experiences shaking brought
on by meteor collisions or the pull of the Earth. These "moonquakes"
may have caused Shackleton's walls to slough off older, darker soil,
revealing newer, brighter soil underneath.
Whether or not the
crater floor is brightly reflective due to ice or other factors is
also open to question.
"The reflectance
could be indicative of something else in addition to or other than
water ice," Zuber said. For instance, the crater floor might be
reflective because it could have had relatively little exposure to
solar and cosmic radiation that would have darkened it.
Zuber noted that the
measurements only look at a micron-thick portion of Shackleton
Crater's uppermost layer. "A bigger question is how much water
might be buried at depth," Zuber said, adding that NASA's GRAIL
mission will investigate that possibility.
The researchers also
used the orbiter to map the crater's floor and the slope of its
walls. This topographic map will help shed light on crater formation
and study other uncharted
areas of the moon.
"We would like
to study other lunar polar craters in comparable detail," Zuber
said. "There is much to be learned here."
The scientists
detailed their findings in the June 21 issue of the journal Nature.
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