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Paus sebagai
insinyur ekosistem: pemulihan dari overhunting membantu untuk penyangga
ekosistem laut dari men destabilisasi
tekanan
Whales as ecosystem engineers: Recovery from overhunting helping to
buffer marine ecosystems from destabilizing stresses
Date:
July 3, 2014
Source:
University of Vermont
Summary:
A review of research on whales shows that they have
more a powerful influence on the function of oceans, global carbon storage, and
the health of commercial fisheries than has been commonly assumed. The
continued recovery of great whales from centuries of overhunting may help to
buffer marine ecosystems from destabilizing stresses, including climate change,
reports a global team of scientists.
...........................
"Consider the subtleness of the sea; how its most
dreaded creatures glide under water, unapparent for the most part," wrote
Herman Melville in Moby Dick. Today,
we no longer dread whales, but their subtlety remains. "For a long time,
whales have been considered too rare to make much of a difference in the
oceans," notes University of Vermont conservation biologist Joe Roman.
That was a mistake.
In a new paper,
Roman and a team of biologists have tallied several decades of research on
whales from around the world; it shows that whales, in fact, make a huge
difference -- they have a powerful and positive influence on the function of
oceans, global carbon storage, and the health of commercial fisheries.
"The decline in great whale numbers, estimated to be at least 66% and
perhaps as high as 90%, has likely altered the structure and function of the
oceans," Roman and his colleagues write in the July 3, 2014, online
edition of Frontiers in Ecology and the Environment, " but recovery
is possible and in many cases is already underway."
Whale
benefits
"The
continued recovery of great whales may help to buffer marine ecosystems from
destabilizing stresses," the team of scientists writes. This recovered
role may be especially important as climate change threatens ocean ecosystems
with rising temperatures and acidification. "As long-lived species, they
enhance the predictability and stability of marine ecosystems," Roman
said.
Baleen and
sperm whales, known collectively as the "great whales," include the
largest animals to have ever lived on Earth. With huge metabolic demands -- and
large populations before humans started hunting them -- great whales are the
ocean's ecosystem engineers: they eat many fish and invertebrates, are
themselves prey to other predators like killer whales, and distribute nutrients
through the water. Even their carcasses, dropping to the seafloor, provide
habitat for many species that only exist on these "whale falls."
Commercial whaling dramatically reduced the biomass and abundance of great
whales.
"As
humpbacks, gray whales, sperm whales and other cetaceans recover from centuries
of overhunting, we are beginning to see that they also play an important role
in the ocean," Roman said. "Among their many ecological roles, whales
recycle nutrients and enhance primary productivity in areas where they
feed." They do this by feeding at depth and releasing fecal plumes near
the surface -- which supports plankton growth -- a remarkable process described
as a "whale pump." Whales also move nutrients thousands of miles from
productive feeding areas at high latitudes to calving areas at lower latitudes.
Sometimes,
commercial fishermen have seen whales as competition. But this new paper
summarizes a strong body of evidence that indicates the opposite can be true:
whale recovery "could lead to higher rates of productivity in locations
where whales aggregate to feed and give birth," supporting more robust
fisheries.
As whales
recover, there may be increased whale predation on aquaculture stocks and
increased competition -- real or perceived -- with some commercial fisheries.
But the new paper notes " a recent investigation of four coastal
ecosystems has demonstrated the potential for large increases in whale
abundance without major changes to existing food-web structures or substantial
impacts on fishery production."
Watch whales
In death,
whale carcasses store a remarkable amount of carbon in the deep sea and provide
habitat and food for an amazing assortment of creatures that only live on these
carcasses. "Dozens, possibly hundreds, of species depend on these whale
falls in the deep sea," Roman notes.
"Our
models show that the earliest human-caused extinctions in the sea may have been
whale fall invertebrates, species that evolved and adapted to whale
falls," Roman said, "These species would have disappeared before we
had a chance to discover them."
Until
recently, ocean scientists have lacked the ability to study and observe
directly the functional roles of whales in marine ecosystems. Now with radio
tagging and other technologies they can better understand these roles.
"The focus of much marine ecological research has been on smaller
organisms, such as algae and planktonic animals. These small organisms are
essential to life in the sea, but they are not the whole story," Roman
said.
New
observations of whales will provide a more accurate understanding of historical
population dynamics and "are likely to provide evidence of undervalued
whale ecosystem services," note the ten scientists who co-authored this
new paper, "this area of research will improve estimates of the benefits
-- some of which, no doubt, remain to be discovered -- of an ocean repopulated
by the great whales."
Story
Source:
The above
story is based on materials provided by University of Vermont. The original article was written
by Joshua Brown. Note: Materials may be edited for content and length.
Journal
Reference:
- Joe Roman, James A Estes, Lyne Morissette, Craig Smith, Daniel Costa, James McCarthy, JB Nation, Stephen Nicol, Andrew Pershing, Victor Smetacek. Whales as marine ecosystem engineers. Frontiers in Ecology and the Environment, 2014; 140703070154008 DOI: 10.1890/130220
