[meteorite-list] How to Hunt a Space Rock (Battle Mountain Meteorite)

From: Ron Baalke <baalke_at_meteoritecentral.com>
Date: Fri, 12 Oct 2012 13:09:33 -0700 (PDT)
Message-ID: <201210122009.q9CK9XwS029429_at_zagami.jpl.nasa.gov>

http://www.jpl.nasa.gov/news/news.php?release=2012-320

How to Hunt a Space Rock
Jet Propulsion Laboratory
October 12, 2012

Peter Willis and his team of researchers at NASA's Jet Propulsion
Laboratory in Pasadena, Calif., had a problem. Actually, more like they
had a solution that needed a problem. Confused? Let's let Peter give it
a shot...

"My team and I came up with a new lab on a chip," said Willis, a
scientist at JPL's Microdevices Lab. "It essentially miniaturizes an
automated sample processing and analysis instrument that could be put
aboard future spacecraft and sent to distant planets, moons and
asteroids. One challenge we have is finding new and interesting samples
to try our chip on."

The team had already gone into the field in quest of unique samples.
Among their previous expeditions, they had hunted down trilobite fossils
at the lava field in Amboy, Calif., and gathered samples from a
hydrothermal vent near Yosemite National Park. But Willis and crew knew
that when testing something destined for another world, it is good to
try it on something not of this world. What they needed was a sign from
above. On the evening of Aug. 21, 2012, a large fireball that turned
night into day was reported over a mountain range halfway between Reno
and Salt Lake City. By convention, the meteorite was named after the
nearest town or prominent geographic feature.

"We first heard about the Battle Mountain meteorite on the morning of
Wednesday, Sept. 5," said Willis. "We were on the road to Nevada the
next afternoon." Meteorites are the remnants of asteroids and comets
that have fallen to Earth. The challenge with these celestial visitors
is that the longer they reside on Earth, the longer they are exposed to
the corrosive effects of Earthly elements. JPL's miniature lab on a chip
(information on the technology is available at:
http://scienceandtechnology.jpl.nasa.gov/newsandevents/newsdetails/?NewsID=1576
), was tasked with looking for chemical markers and amino acids that
originated in space, not manufactured naturally here on Earth. To give
their new instrument a true test run, Willis' team needed a
factory-fresh piece of the heavens.

After a night at a local motel, Willis, along with fellow JPLers Amanda
Stockton, Josh Schoolcraft, Fernanda Mora and Morgan Cable, packed
hiking gear and a whole bunch of water into their SUV, and struck out
for Battle Mountain, Nevada. Also along for the ride, and acting as the
expedition's navigator, was J.P. Kirby.

Kirby, a senior scientist from the Planetary Science Institute in
Tucson, Ariz., was navigating because meteor sightings usually occur
when the space rock in question is hurtling through the atmosphere tens,
if not hundreds of thousands, of feet above the ground. With a long way
between hurtling airborne fireball and ground, there is a lot of room
for error in plotting potential meteorite impact points. To derive the
best educated guess as to where meteorites could be found, Kirby worked
with Mark Fries, also of the Planetary Science Institute, and chief
scientist of Galactic Analytics, LLC, San Diego, to plan their expedition.

"You read stories where people are taking their dog on a walk or do
something else equally as innocuous and they stumble upon a meteorite,"
said Kirby. "Sometimes dumb luck does play a role in meteorite finds,
but we were on a tight schedule, and the Battle Mountain area is big,
hilly and treacherous, so a plan was definitely in order."

Working with weather radar data as well as testimonials from those who
witnessed the fireball, Fries generated an impact zone for the team to
concentrate their search. Using a tablet, Kirby combined the Fries'
strewn field map with topographical maps of the Battle Mountain region.

"The first day, we covered 6 miles [10 kilometers] of mountainous
terrain on foot but didn't find anything but terrestrial rocks and the
occasional whiptail lizard," said Willis. "The next day was going to be
our last shot, so we planned to drive much deeper into the estimated
impact zone. The problem was, the most negotiable route ended up taking
us through an active mine claim. We quickly found out that miners are
not much interested in rocks from space."

Since Battle Mountain is in gold mine country, and gold is worth its
weight in gold these days, unannounced visitors of any ilk are generally
discouraged.

"We were fixing a flat when they drove up and told us to turn around,"
said Willis. "We needed to get the tire repaired anyway, so we headed
back to town to regroup and look for a different route which didn't
cross mining land."

The new route made full use of their SUV's 4-wheel drive capability. The
team negotiated narrow, sloping, unpaved, sand-flooded switchbacks
before arriving near the center of their estimated impact zone. By the
time they parked, it was already mid-afternoon. For the next three
hours, the team fanned out in different directions, but found nothing
extraterrestrial in nature. By 4:30 p.m., it was getting to be time to
wrap things up. The team did not want to negotiate those unpaved,
dangerous switchbacks after dark if they didn't have to.

At 4:30, JPL's Josh Schoolcraft had just begun the final leg of his
search ... when he saw it. Sitting there on the mountainside, amidst a
tangle of sun-bleached dirt, pebbles and scrub was a jet-black rock.

"I knew right away it was what we were looking for," said Schoolcraft.
"It was a carbonized, unweathered black mass, unlike anything else we
had seen in our two days of searching. It clearly had not been there for
very long."

Schoolcraft signaled and soon everyone gathered, surrounding their
3-inch-wide (8-centimeter) piece of the sky.

"Initially, everyone was basically freaking out," said Willis. "Then we
got down to business and took pictures before collecting the meteorite
in a sterile manner."

On the way back to the vehicle, Willis heard more shouting and thought
his team had found another meteorite.

"But it was just an irritated rattlesnake," said Willis. "He went back
into his hole and we went home, with a fresh chunk of outer space sealed
in a sample bag."

A 1.4-pound (630-gram) fragment of the Battle Mountain meteorite is
currently undergoing analysis by the team's lab-on-a-chip systems at JPL.

DC Agle 818-393-9011
Jet Propulsion Laboratory, Pasadena, Calif.
agle at jpl.nasa.gov

2012-320
Received on Fri 12 Oct 2012 04:09:33 PM PDT