There are different risk-factors that come with different
life-callings:
- Fish for King Crab in the
Barents Sea: get rich fast, but unusually high risk of becoming crab food.
- Transport cocaine from Colombia
to Texas: get rich fast, but unusually high risk of being beheaded.
- Fight forest fires:
unusually high risk of joining the Bar-B-Que and burning with the trees. Not even health insurance until next year.
- Work as an accountant:
Live Long and Prosper!
There have been several questions directed at us in Ask-a-Geologist about safety
while working as a geologist or geophysicist. These increased, as expected,
during the 2004-2006 eruption of Mount St Helens. To a previous question, I
mentioned walking out the leading edges of moving lava flows in Hawai'i. This
was not done casually, but to gain a clearer understanding of how these flows
move - and why they suddenly can inundate towns like Kalapana. If we understand in a statistically reliable way how lava creates its
own new topography, perhaps we can predict where the Danger Zones are.
This has non-trivial real-world consequences: if you build in Zone 1 or Zone 2 on the Big Island, your home-owner's insurance will be phenomenally high - if you can get it at all.
In a larger sense, however, this opens the broader issue of
inherent risk that comes with certain jobs - and how you can manage those
risks.
In 1977 a young USGS geologist named Cynthia Dusel was part
of a mapping team, surveying the Big Delta Quadrangle in east-central Alaska,
when she was attacked and mauled by a bear. She survived, but lost both arms.
Since then she has married, had a son, and even served as acting chief of the
Western Mineral Resources team in Menlo Park, CA for a year. She's something of an icon
among us in the USGS: very matter-of-fact about her disability, very upbeat,
great sense of humor - and epitomizes indomitable courage.
The response to that attack within the USGS was probably
predictable: everyone going up to work in Alaska started packing huge guns.
Then the scientist part in the Survey scientists woke up and many of them thought
about it a bit more. Let's gather data about the real threats to geologists
working in Alaska! they said. They did... and were surprised to learn that bear attacks
came in as Number 7 on the list. Shooting yourself with your own weapon came in
Number 3 - I once watched a rettle tech shove a cocked .357 Magnum into his holster. This led to the development of a sophisticated 3-day weapons
safety training course (informally called the "Bear Blasting" class, of course)
required of anyone planning to work in Alaska. The Number 2 killer of geologists working in Alaska was helicopter
accidents - my first USGS boss was killed in Ketchikan harbor this way. And this led
to careful "carding" of pilots and aircraft, and mandatory training of geoscientists. None of us ever worked with a pilot with less than 5,000 hours of flight
experience, and we always wore NOMEX clothing and $1,500 fighter-pilot helmets, among other things.
The Number 1 killer of geologists was drowning. That's right: drowning. If you fall into deep water in Alaska (and
southeast Alaska and the Aleutians are mostly islands, anyway), your arms will
essentially stop working after about a minute unless you are wearing a Mustang
suit. That's hypothermia for you. I came within a hairs-breadth of becoming one
of those drowning statistics in Klawock in August of 1995.
It became a growing part of our evolving scientific
tradition: we all loved working in the field, but it carries with it different
dangers. Soooo... how can we minimize these? How can we manage these risks?
Q:
That's a pretty crazy account. It's particularly funny to think about your
work when I think of it in comparison to our OHS (occupational health and
safety) officers who come around to inspect our offices periodically to make
sure that our chairs are properly aligned to make sure that we don't hurt our
backs by sitting all day long. Why in
the world would you be stomping around an area of jungle amidst fresh-flowing
lava? - Lisa W.
A:
Throughout my professional career I've faced many rather disparate
dangers. This wasn't done for the adrenaline thrill - it's the only way in most
cases to acquire the crucial data that we need to solve real world problems. In the Continental US, this
usually means working in really rugged terrain. I camped overnight with a
geophysical crew inside the crater of Mount St Helens in 2007. I had
helicoptered in with some geophysical equipment, but after several days had to get back to the
office before the end-of-week scheduled helicopter flight. A case in point: I
planned for it, and walked out. However, it proved to be far more rugged
terrain than I had anticipated in my planning (which was done with 10-yr-old air-photos
in a terrain that is unconsolidated, and evolving nearly every day). If I had not been carrying
(and using) hiking poles with my pack, I wouldn't be wearing these front teeth
today. I still sustained permanent damage to my left big toe and my right knee in the ~20 km walk-out (the knee is still swollen as I write this).
In Venezuela, my personal journals have WAY too many "I
was nearly killed again today" entries. That was the first time I really
looked at the full array of danger that comes with working in the deep jungle.
Initially we went down for a three-year assignment to map the roadless, jungle-covered southern
half of Venezuela thinking the the big risk was from snakes. In fact, I
encountered a Bushmaster on my very first Entrada. It took awhile to recognize
the more subtle, even hidden dangers: testosterone-poisoned pilots, poorly-maintained
helicopters, Chagas disease, piranha in all the rivers, etc. The Number 1 killer? The Anopheles
mosquito - the vector for Plasmodium Falciparum, also known as cerebral
malaria, followed closely by drunk drivers. I lost two of my best friends in
Venezuela, in separate incidents, to drunk drivers.
After a series of very close calls I took the Advanced Trauma Life Support training at the University of Maryland medical school (yes, it's supposed to be for medical doctors - but I have the certificate to prove it). I discussed the issues
with some more experienced field geologists and began instituting some safety
protocols for the mapping mission that I was in charge of - for instance we almost
never used helicopters after the first year there. We wore light-colored clothes to minimize being targeted by Africanized bees. We always walked the picas
(trails) in pairs. We always insisted on mosquito nets surrounding our
hammocks, etc. One of my colleagues instituted one safety protocol himself: he
bailed out, breaking his contract and leaving his commitments on my shoulders.
I've never begrudged him for this by the way: he was one really, really frightened dude. A
year later he even left the geosciences profession, abandoning his PhD
training, to become a financial advisor. Live long and prosper.
But here's the thing: you CAN control the variables, you CAN
push the statistical envelope far over to the likely-to-survive side of the Gaussian
probability curve.
I took some training last year that is a case in point. You
can't study a volcano unless you can get a lot of equipment up INTO it. My sons
will attest that just getting 300 kilos of gear up into the Pumice Plain (the
Mount St Helens Blast Zone) for their mom's Masters Degree research project was
a non-trivial exercise. It's much harder to do this in the upper edifice of the volcano -
so we use helicopters.
Easy to say, technically hard to do.
The safest way to ensure the survival of the helicopter and
pilot is NOT to have a lot of loose shovels, antennas, and batteries INSIDE the ship. This
little nugget of wisdom was culled by carefully gathering reports of all
helicopter crashes in the United States over 50 years. Instead, you *sling* all
that loose, sharp-edged junk. There is an electrically-controlled hook on the
belly of most helicopters. We took a full day to practice this routine on a
level lawn:
- Gather all your gear in a
pile, weigh it piece by piece. Give that manifest to the pilot - who will
do a calculation to see if he can even lift it to the elevations you will
work at AND have enough margin to carry you along with it.
- Load it into a net that
itself weighs 25 kg. Try to balance that net, arrange it so things tilt inward, and especially be sure that
nothing is sticking out of the net that could tangle with anything - like
you, or the skids.
- Then call the helicopter
in to you, holding your hands up and out in the direction of the wind (we
usually dangle a strip of red flagging tape so the pilot can judge the
local wind velocity).
- As the ship approaches, it comes in slowly at about 1.5 meters off the ground - remember that
the thing is wobbling around in the wind as the pilot tries to control it
against the volcano-heat-triggered turbulence, and it is SCREAMING SO LOUDLY that
you can easily get rattled just by the 140-db sound (we wear helmets with
ear protection, but it's still unnerving).
- You must then walk under
this shuddering, screaming thing, hook your sling net to the belly, and
then carefully back out (NOT turn around), without tangling your feet in
the net, and keeping your footing amid the rocks and talus.
- Above all, if you stumble,
you must NOT grab one of the skids to regain your balance. If you do, the
ultra-light craft will flip, the blades will hit the ground, and all that
angular momentum must go somewhere really, really fast – and you will both
probably die. You have to trust the pilot, and he must trust you: if you
hook the net wrong, or inadvertently tangle it in one of his skids, it
could kill him. The craft is so fragile that you can literally push it
around in the air above you with your hand... but those screaming turbines mean it
is powered by 600 horses. Everything spinning is so finely balanced that
if a blade nicks a branch it will chip a chunk off – and it then becomes hugely
unbalanced. Then the angular momentum comes into play, and the aircraft
will literally beat itself (and its occupants, and everyone within 20
meters) to death.
When a helicopter goes down, that's just the beginning of
the bad stuff... think of the old high-school joke: What's red and green and
goes round and round real fast? A frog in a blender. Now imagine doing this
sling exercise on a steep ridge with 30-knot wind gusts. THAT's
why we practice and practice all day long on a lawn to do this right. So it's
reflex. So when the brain starts mis-firing, you STILL do the right things.
This is basically how I teach Jujitsu to my students, by the way. No one ever defended themselves from their Worst Nightmare by using their cerebral cortex - it only works from muscle memory: reflex.
This is basically how I teach Jujitsu to my students, by the way. No one ever defended themselves from their Worst Nightmare by using their cerebral cortex - it only works from muscle memory: reflex.
Live Long and Prosper. And still enjoy the Adventure!
~~~~~
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