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Phoenix Mission Research Points to Martian Climate Cycles



 
 
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Old July 2nd 09, 07:47 PM posted to sci.space.news
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Default Phoenix Mission Research Points to Martian Climate Cycles

FROM: Johnny Cruz (520-621-1879; )

Phoenix Mission Research Points to Martian Climate Cycles
July 2, 2009

EDITOR'S NOTE: Peter Smith will be available to speak with local
reporters
today at 2 p.m. at the Phoenix Mission Science Operations Center, 1415
N.
Sixth Ave., Tucson.

Four papers in the journal Science this week offer new details about
the
history of water on Mars, gleaned from the 2008 NASA Phoenix Mars
Mission
that was operated from The University of Arizona.

Peter H. Smith, a scientist with the UA Lunar and Planetary Laboratory
and
the mission's principal investigator, is the first author of "H2O at
the
Phoenix Landing Site" in Science. There are 35 co-authors from six
countries
on the paper. Smith and his group of scientists and students used the
lander
to investigate the role of water and ice on Mars, as well as the
changing
weather patterns.

The popular mission launched in early August 2007. In May, 2008, early
10
months later, its landing trajectory was spectacularly captured by the
HiRISE camera onboard the Mars Reconnaissance Orbiter.

For the next five months, the UA Science Operations Center clattered
with
researchers gearing themselves to follow the Martian diurnal phases,
which
are about 40 minutes longer than day and night on Earth and enough to
throw
off human sleep schedules in short order.

The landing site was an ejecta field. A comet or asteroid that crashed
into
the surface melted the ice below creating a sheet of dust and water
that
flowed across a shallow valley. Smith said that event also covered any
large
rocks that could have interfered with the ability of the Phoenix to
safely
land.

Smith and his group found patterns in the ground near the lander,
multi-sided shapes about three to ten meters in size. The shapes are
created
when the surface contracts and the ice cracks. Sand fills in the
cracks
before the ice expands and buckles the surface to make the distinctive
patterns.

Smith used the Phoenix lander's robotic arm to dig a series of
trenches to
expose subsurface ice and found that the ice in the centers of the
polygons
was fairly shallow, only a couple of inches deep.

"But in the troughs in between, we went down as much as eight inches
and
never did find the ice underneath. We weren't able to dig further down
because the robot arm was hitting against the side of the lander. It
was not
known ahead of time that there would be changes in the depth of the
ice," he
said.

"We wanted to know the origin of the ice," Smith said. "It could have
been
the remnant of a larger polar ice cap that shrank; could have been a
frozen
ocean; could have been a snowfall frozen into the ground," he said.

"The most likely theory is that water vapor from the atmosphere slowly
diffused into the surface and froze at the level where the temperature
matches the frost point. We expected that was probably the source of
the
ice, but some of what we found was surprising."

One of the surprises was finding perchlorate.

"Perchlorate was not predicted at this landing site and nobody had it
on
their list of likely chemicals. There was a very high concentration of
it,
higher than the salts we might have expected like sodium chloride
(table
salt). As an oxidized state of chlorine, it has interesting properties
including a strong affinity for water. On Earth, microbes use it as a
chemical energy source."

During the mission, Mars moved from summer to winter, giving Smith and
others an unprecedented look at the planet's changing weather
patterns,
including frost and snow.

"Frost was predicted, but snowfall was quite a welcome surprise,"
Smith
said. "In summer there was a lot of dust in the atmosphere. As we
neared
fall, the dust cleared, and all of a sudden there were water ice
clouds
forming at about 4 km (2.5 mi.) above the surface. We could see the
clouds
scud by, moving through the camera field, and once we saw snow coming
out of
the bottom of a cloud. It was very exciting to watch the daily weather
changes. No one has ever had this experience."

Smith said there are clues that thin films of water modified the soil
chemistry. Unlike Earth, Mars has an unstable spin axis, which
currently is
tilted at about 25 degrees from vertical. Perhaps five millions years
ago,
he said, it was tilted much more, which would have exposed the north
pole to
larger amounts of sunlight creating warmer, wetter conditions during
summer.

"During that previous climate, you would expect huge increase in the
amounts
of water vapor coming off the polar cap. If the cap goes unstable, you
can
have as much as three hundred times as much water in the atmosphere,"
Smith
said.

It would have been enough for snowdrifts. On hot summer days, melting
snow
could have formed thin films of water.

Not enough for a lake or a river, but he said this could have been a
time
when damp soil provided a growth period for any microbes that learned
to
survive those long periods of dryness.

"Who knows? Evolution is a powerful force. If life ever started on
Mars,
there are niches where still it could survive."

CONTACTS:
Peter Smith (520-621-2725;
)

Bill Boynton (520-621-6941;
)

 




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