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February
22, 2007 While some
scientists have pointed to the decline of cod
from overfishing as the main reason for the shifting ecosystems, the
article
emphasizes that climate changes are also playing a big role. "It is becoming
increasingly clear that Northwest
Atlantic shelf ecosystems are being tested by climate forcing from the
bottom
up and overfishing from the top down," said Charles Greene, director of
the Ocean Resources and Ecosystems Program in Cornell's Department of
Earth and
Atmospheric Sciences. "Predicting the fate of these ecosystems will be
one
of oceanography's grand challenges for the 21st century." Most scientists
believe the planet is being warmed by
greenhouse gases emitted in the burning of fossil fuels, and by
changing land
surfaces. Early signs of this warming have appeared in the Arctic:
Since the
late 1980s, scientists have noticed that pulses of fresh water from
increased
precipitation and melting of ice on land and sea in the Arctic have
flowed into
the At the same time,
climate-driven shifts in Arctic wind
patterns have redirected ocean currents. The combination of these
processes has
led to a freshening of seawater along most of the In the past, during
summer months, a wind-mixed layer of
warmer, less salty water (which is less dense and lighter) floated on
the ocean
surface. When the air temperature cooled during autumn, temperature and
density
differences lessened between the surface mixed layer and the cooler,
saltier
waters below. Similar to the flow of heating and cooling wax in a lava
lamp, as
the density differences became smaller, mixing between the layers
typically
increased and the surface mixed layer deepened. But, Greene cites
recent scientific studies that reveal the
influx of fresh water from Arctic climate change is keeping the surface
mixed
layer relatively shallow, curbing its rapid deepening during autumn. A
gradual
rather than rapid deepening of the surface mixed layer has led to
changes in
the seasonal cycles of phytoplankton (tiny free-floating plants like
algae),
zooplankton (tiny free-floating animals like copepods) and fish
populations
that live near the surface, according to the report. Without the fall
deepening of the surface mixed layer,
phytoplankton populations have continued access to daylight needed for
growth,
and their numbers have stayed abundant throughout the fall. In turn,
zooplankton, which feed on the phytoplankton, have increased in number
during
the fall through the early winter. Herring populations also rose during
the
1990s, which some scientists suspect may be because of the abundance of
zooplankton to feed on. At the same time,
Greene's article cites how the collapse of
the cod populations in the early 1990s has led to increases in
bottom-living
species such as snow crab and shrimp that cod feed on. Without cod
preying on
them, other animals that live in the water column and feed on
zooplankton,
including herring, may have increased in numbers. But, while the story
with
herring is still unclear, the authors contend that the crash of cod
populations
does not fully explain why phytoplankton and zooplankton populations at
the
base of the food chain have risen during autumn. "We suggest that,
with or without the collapse of cod,
a bottom-up, climate driven regime shift would have taken place in the Andrew Pershing, an
oceanographer who recently moved from
Cornell to the
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