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Ascent Of A Mountain
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1 
part
2
part
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No ascent in the big mountains can
begin without a “poojah”, a Bhuddist ceremony
to appease the gods and pray for favorable conditions.
The ceremony is led by a lhama, in this case one of
our three Sherpas. Sherpas are men from the area who
are super-adapted to high altitude and help find the
trail and carry loads up the mountain.
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The path from basecamp to camp 1 led
along the glacier and then up a steep slope to 6400
m.
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Climbing above camp 1
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Approaching
the ice cliffs.
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At the ice cliffs.
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View down to camp 1, the mass of tiny
orange dots. We are beginning to get above the neighbouring
peaks.
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Camp 2 at 7000 m. The dry landscape
to the right is the Tibetan plateau to the north.
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Ascent of
a Mountain
Continue to part 3 |
The danger in mountaineering comes in two varieties: subjective
and objective. Subjective danger you have some control over,
such as screwing the ice piton in correctly so it holds you.
I once owed my life to an ice piton that was screwed in just
one inch on thin ice on a Himalayan face that plummeted down
to a glaciated valley never visited at the time (1965) and from
which rescue was impossible. I was leading a difficult pitch
(the name given to one rope-length of climbing) when I slipped,
fell and pulled my companion off his stance. The piton held
us both and we dangled for a few minutes before extricating
ourselves.
Objective danger is the variety you usually have no influence
over. This includes falling rocks, avalanches, lightening
strikes, etc. Experience minimizes these risks, but they never
disappear. Seven years after the piton dangling episode, I
returned to the same Himalayan peak, still unclimbed, got
trapped on one of its sharp ridges and was struck by lightening.
By luck, the bolt hit the ridge some distance from the party,
so all we suffered was the feeling of having 110 volts momentarily
pressed to our backsides.
The stress of continually climbing with high objective danger
can build up. I was once leading my childhood climbing mentor
(a teacher, not my father) and a friend up the Zmutt ridge
on the Matterhorn. It’s a difficult route, and I had
romped up it in perfect conditions three years earlier with
two companions unroped. This time it was covered in snow and
ice and in a lethal condition. We had progressed to a point
when retreat would have been more dangerous than continuing,
frequently the case in technical climbing. We then embarked
on a lengthy and obligatory section on the East face of the
mountain. There was no protection in case of a fall and we
ascended gingerly for 500 meters before regaining the ridge.
One slip would have brought us all down. At the ridge, I saw
a piton firmly anchored in a crack and I immediately snapped
into it to offer protection. I burst into tears with relief.
That ascent of the Matterhorn was so slow we ended by sleeping
just below the summit. You have to get used to sleeping in
strange places. I’ve slept in my rucksack, an extendable
type that accommodates my legs, pinned to a Himalaya peak
at 6000m. I’ve slept on an ice ledge just below a virgin
Hindu Kush peak in Afghanistan just climbed. I’ve slept
half way up the Frendo spur in winter during a blizzard, a
climb on the north face of the Aiguille du Midi in the Chamonix
valley. I’ve slept in the open for three weeks crossing
the Afghan foothills where the air is so clear you see satellites
passing. Often I’ve failed to sleep because of the anticipation
of a hard climb. In the Alps and before summit attempts in
the Himalayas, you anyway never have long to sleep because
you must use the early hours when the snow is hard.
Sometimes when you sleep at altitude, the brain gets fooled
by the low atmospheric pressure and stops signaling the body
to breathe. The technical term is Cheyne-Stokes breathing.
Three years ago, I took my family trekking in the high Karakoram
in north-west Pakistan where that country meets India and
China. We had been walking a week and were camped at 5000m
beneath a glittering array of peaks and glaciers. That night,
my wife awoke and realized she had stopped breathing. She
scrambled out of the tent into the freezing darkness to get
air and sat for 30 minutes gradually catching her breathe.
The following night, I had a similar attack.
Cheyne-Stokes doesn’t kill, but two other tricks that
altitude plays on the human body do, and quickly. For reasons
not entirely understood, the reduced air pressure can suddenly
release large amounts of water in the body, either filling
the lungs causing death by internal drowning (pulmonary oedema)
or filling the brain with similar results (cerebral oedema).
Both happen unpredictably and can finish you in less than
24 hours. Special medicines delay death, but the only real
hope is to descend to lower altitudes where symptoms usually
disappear. The oedemas strike experienced and novice climbers
alike. Fitness has nothing to do with it. The fact that you’ve
ascended high, even several times, is no insurance either.
However, none of this happens to people born and raised in
the high mountains. The famous Sherpas, a Nepalese tribe living
in the shadow of Mount Everest, have bodies perfectly adapted
to altitude. They easily outperform even the most acclimatized
climber from lower altitudes. On Cho Oyu I climbed with Norbu
who holds the record number ascents of Everest — seven.
I struggled every inch of the way, while he frolicked around
and chain-smoked his way up the mountain. From birth his lungs
have been converting oxygen to red blood cells more efficiently
than anyone raised at low altitudes can ever achieve. His
whole body is adapted perfectly to life at high altitude.
A solution for lowland mortals is to supplement your breathing
artificially with oxygen stored in little bottles that fit
in your backpack. Supplementary oxygen makes everything feel
about 2000m lower, so Everest’s 8900m altitude becomes
6900m, an easier proposition by far. But no guarantee! If
the breathing apparatus freezes up or fails, which is not
uncommon, you’re suddenly back at 8900m. The question
facing every climber of very high mountains is whether or
not to use supplementary oxygen. My decision at the relatively
young age of 56 is still to say no. I would rather fail to
get up the mountain than depend on artificial anything. Maybe
when I’m older I’ll change my mind, but I doubt
it.
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