This is a very unexpected result and underscores the richness of this
ecosystem. It surely supports a large fishery of some sort that we
barely understand if at all. Just because we have just discovered it
hardly suggests that it is uncommon.
In the meantime current arctic ice is pretty well within the channel
created by the most recent years which is significantly below the
long term average up to 2000. There remains no indication that we
are facing an actual uptrend as yet.
Long term ice has been deeply reduced although one never seems to get
comfortable readings on that. It appears that we may have
established a new equilibrium instead that will only trend downward
if as in 2007, we have the right combination of winds.
In the meantime we now know that an increase in the extent of one
year ice will hugely increase the biological content of the Arctic
way more than anyone ever imagined.
Arctic bloom:
Record phytoplankton growth found under Arctic ice
Jun 7, 2012 – 4:13
PM ET | Last Updated: Jun 7, 2012 4:22 PM ETMargaret Munro, Postmedia
News
Small melt ponds are
forming over vast expanses of Arctic ice, like the one shown here in
the Chukchi Sea between Siberia and Alaska in July 2011. Scientists
say the ponds allow light to penetrate through the underlying ice and
help explain the massive phytoplankton blooms discovered beneath the
metre-thick ice
The most intense
phytoplankton bloom recorded on Earth occurred under the Arctic ice
last summer — a finding that has stunned seasoned polar scientists.
“The ice was over a
metre thick,” says Kevin Arrigo at Stanford University, leader of
the international team that reported Thursday finding the massive
bright green algal bloom beneath the ice.
It turns out that
first-year polar ice — long considered impenetrable to sunlight —
can create ideal conditions for growing phytoplankton, the
single-celled plants crucial to the Arctic food chain.
“It’s like the
perfect environment,” says Arrigo.
The team was on a U.S.
icebreaker smashing its way across the Chukchi Sea between Siberia
and Alaska last July when equipment used to measure phytoplankton
went “haywire.”
“We thought there
was something wrong with the instruments,” Arrigo told Postmedia
News.
Then the scientists
made their first scheduled stop to take ice samples and got a good
look at the ocean below.
“The water was
completely green,” Arrigo said. “It was like pea soup.”
The farther they
ventured into the ice-covered sea for their NASA-funded project to
study ice, the more intense the under-ice algae bloom, says Arrigo, a
veteran of many trips to the Arctic and Antarctic.
“It was shocking,”
he says.
Phytoplankton were
growing and multiplying at an extraordinary rate under an expanse of
ice more than 100 kilometres across, the team reported Thursday in
the journal Science.
Arrigo says records
indicate it was the “most intense” algal bloom ever seen anywhere
on Earth. “We had incredibly high concentrations of algae all of
the way down to 70 metres in some cases,” he said.
First-year polar ice,
which forms over just one winter, is becoming more common in the
Arctic due to the recent retreat of much thicker multi-year ice.
While first-year ice
was thought to be impenetrable by sunlight, Arrigo says it can
actually create optimal growing conditions for algae.
Melt ponds tend to
form on top of the ice as temperatures climb in June and July. And
the shallow ponds act like lenses, allowing 50% of the light to
penetrate through the ice into the water below.
At the same time, the
ice screens out UV radiation that can stunt algal growth, he says.
Add the Arctic’s
24-hour summer sunshine, and phytoplankton populations under the ice
can explode.
Another factor at play
is a “striking” change in some Arctic winds in recent years, says
co-author Kent Moore at the University of Toronto. More persistent
easterly winds are bringing up more nutrients in the Chukchi Sea,
which appears to have fed the under-ice bloom.
Thursday’s report
deals with the bloom under the ice in the Chukchi Sea, but Arrigo
suspects algae could be blooming under the ice in about 25% of the
Arctic Ocean, including large parts of Canada’s North. Anywhere, he
says, with shallow water, lots of nutrients and first-year ice.
As the Arctic warms,
the scientists say under-ice phytoplankton blooms could become
increasingly common, occur early in the season and consume nutrients
that would normally feed open-water blooms.
“The real surprise
is all these unanticipated consequences of global warming,” says
Moore.
The shift may benefit
some creatures, the researchers say, but others may have difficulty
adjusting.
“If you’re a
seabird planning to get to Chukchi Sea in mid-July to feed, you may
be out of luck,” says Moore.
"“The real surprise is all these unanticipated consequences of global warming,” says Moore." It is not unanticipated by those that are out to change the climate by manmade efforts of spraying the skies with chemicles, called Chemtrails. If you don't know what those are, then look it up. You just might have a different look about who it is that is causing global warming.
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