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| Chunks of 1 m (3 ft) thick ice are pushed effortlessly aside by the Louis. |
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| No, she hasn't been drinking. Walking down the causeway, Jane Eert stumbles
into the bulkhead due to the motion of the ship breaking ice. |
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| Science meeting in the Louis boardroom. Chief Scientist Sarah Zimmermann
(right) discusses upcoming operations with the CTD and chemistry group who
listen attentively to her every word. |
| All photos by Rick Krishfield, WHOI. |
Cruise - 2006 Dispatches
Calendar
Dispatch 4, August 8, 2006
By Rick Krishfield
It's All About the Ice
Now that we are in the icepack, the Louis begins to do what it does
best - break ice. Gone are the days of imperceptible motion described in
Dispatch 2. From now on, we know when we are moving due to the constant
crunching sounds of the 1-3 m (3-10 ft.) ice being crushed under the ship.
Added to the noise is the herky-jerky motion imparted on the ship by the
larger and thicker pieces of ice, which typically form as ice ridges.
Walking down a passageway can sometimes take the form of a "drunkard's walk"
due to the sudden side-to-side jolts. The only times when the motion is
steady in the pack ice is when we are stopped to work, or traversing thin
ice patches or open water "leads". When encountering an extremely hard ice
patch, the massive icebreaker may sometimes even be stopped by the ice,
necessitating backing up and re-ramming the offending floe. But if the ice
becomes too uncooperative, then the Captain has the ability to bring another
of the Louis' five engines online (see icebreaker page for more information on
the ship's capabilities).
In fact, most icebreakers do not break ice by ramming (with the
exception of the Russian nuclear icebreakers), but typically break ice by
riding up over the ice, and using the weight of the ship to crack the floes.
As a result the design of the hull is more rounded than most vessels, which
means that the ship will also roll more in ice-free high seas. Anyone who
has felt the rolling motion of an icebreaker in heavy seas would prefer the
herky-jerky motion of the icebreaker in the ice.
On this day, we encounter highly concentrated relatively thick (3 m)
multi-year ice (ice that has survived over at least one complete summer
season) over the location of the CABOS mooring that we planned to
recover. This is rather surprising, since very little ice has been
encountered at this location during the past three summer cruises; although
not too surprising, as we were warned of this possibility by the onboard Ice
Observer Scott Payment, who analyzes daily satellite images of the icepack
for navigational purposes (to see an example of satellite ice images, visit the Alaska Ocean Observing System website). Using an acoustic transponding device, Mike
Dempsey and myself were able to verify the location and integrity of the
instrumented mooring system, but the ice conditions prohibited recovery on
this pass. We will try again near the end of the cruise, on our way back to
Kugluktuk.
Meanwhile, the CTD and chemistry group meet in the ship's boardroom
so that Chief Scientist Sarah Zimmermann (from IOS, Canada) can pass along
information on the timing and work to be performed at the next CTD station.
This is the third year that Sarah has skillfully lead the international team
of scientists on the annual JWACS cruise. Besides coordinating the various
scientific activities which all clamor for shiptime, and coordinating on
behalf of the scientists with the Captain and ship's officers, Sarah also
leads the CTD operations. I don't know how she manages to stay so pleasant
with all these responsibilities heaped upon her.
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