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[ Music ] Brunt: Fourteen days,
two PistenBullies, four people,
so yeah, 750 kilometers, door to door.
[ wind blowing, music ] Brunt: Recently, we just got back from
Antarctica where we completed about a two-week ground traverse
near the South Pole. We were basically driving PistenBullies,
tracked vehicles similar to the ones that groom your ski areas.
Behind those PistenBullies were 60-foot long
plastic sled trains. And ultimately those trains carried things like our sleeping tents,
fully erected and left standing during the day when we were driving.
Kitchen tent, fuel, generators,
all sorts of cargo-- Neumann: Everything we needed for the trip.
Brunt: And from a both science and survival standpoint.
So this entire traverse was in support of ICESat-2, which will launch
later in the year. Neumann: ICESat-2 is all about elevation, and
the natural question is how you're getting the right answer? This is how we will know. We'll go
out and collect a reference data. We'll be ready to compare and evaluate, see how we're doing.
Radio: 3-1-9 is feeling kind of ready, how you guys doing over there?
Neumann: So the big measurement we were making was to measure the elevation of the ice
sheet surface around our traverse. And we had the two GPS running, one on each vehicle
measuring that elevation. One of the other experiments we were doing is leaving out
what we call corner cube reflectors to get an assessment of the pointing
of ICESat-2. When we make an elevation measurement how are we sure it's in
the right place. So in this picture you can see a bamboo pole with a little
white cap on the end of it. And embedded in that cap, little piece of glass
about as big as your pinky nail and calibrated to return
green laser light from the satellite, bounces off of this thing
and goes right back up to the satellite again. Super reflective. So these things, as
Kelly has demonstrated, show up in data with altimeters
like ICESat-2. When you first get to South Pole, and you're coming from
McMurdo, which is a nice seaside town right at sea level, and South Pole is
what, about 10,000 feet. And yeah, you notice it pretty quickly. The
temperature is a lot colder than in McMurdo. It's probably 30 degrees
40 degrees colder and 10,000 feet higher. Walking from the
camp to where we're putting in an array for example, would be a ten minute walk maybe,
five minutes. A couple of breaks on the way, you know, it's still pretty
high. Brunt: The plan is to repeat this traverse for the
next three years. So four years of data total, and that
would last the mission lifetime--the mission requirement lifetime--
for ICESat-2. Neumann: ICESat-2 has 1,387 orbits
and so it's cruising around the world, and it's got these unique tracks that repeat every
91 days. And all those tracks converge at 88-South, and
so our route crossed, what, twenty percent of them. So we can
calibrate data from twenty percent of our tracks with this
stretch that we drove. And by repeating it every year about the same time
of year, we'll overlap it exactly the same time, but we'll also be able
to figure out what's going on in between. Because we'll measure it in 2017,
and then again in 2018, and you can see how it changes from year to year. So that will be pretty
cool, too. It will quickly become the best-surveyed piece of
either of the ice sheets. [ Music ]
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