Wolf Pages

Saturday, July 16, 2011

Wolves' Return a Howling Success for Ecosystems

Gray wolves from Canada  were reintroduced into  Yellowstone Ntaional Park in the U.S. in the 1990s and have triggered a restoration of the park ecosystem. By keeping elk in check,  the wolves have enabled aspen, willow and cottonwood trees to sprout.
Gray wolves from Canada were reintroduced into Yellowstone Ntaional Park in the U.S. in the 1990s and have triggered a restoration of the park ecosystem. By keeping elk in check, the wolves have enabled aspen, willow and cottonwood trees to sprout.
 
Gray wolves from Canada  were reintroduced into  Yellowstone Ntaional Park in the U.S. in the 1990s and have triggered a restoration of the park ecosystem. By keeping elk in check,  the wolves have enabled aspen, willow and cottonwood trees to sprout.   Beavers have started to move back in to feed on the trees, increasing habitat for birds and insects.
Gray wolves from Canada were reintroduced into Yellowstone Ntaional Park in the U.S. in the 1990s and have triggered a restoration of the park ecosystem. By keeping elk in check, the wolves have enabled aspen, willow and cottonwood trees to sprout. Beavers have started to move back in to feed on the trees, increasing habitat for birds and insects.
 
Gray wolves from Canada  were reintroduced into  Yellowstone Ntaional Park in the U.S. in the 1990s and have triggered a restoration of the park ecosystem. By keeping elk in check,  the wolves have enabled aspen, willow and cottonwood trees to sprout.
Gray wolves from Canada were reintroduced into Yellowstone National Park in the U.S. in the 1990s and have triggered a restoration of the park ecosystem. By keeping elk in check, the wolves have enabled aspen, willow and cottonwood trees to sprout.
 
 

Apex canines repopulating Yellowstone Park since the 1990s provide a healthy boost to local ecosystem

 
 
 
Thirty-one grey wolves from Canada were turned loose in Yellowstone during the 1990s.
The iconic canines were soon tearing after elk in the U.S. national park, which had not seen wolves in seven decades.
Aspen, willow and cottonwood trees have begun to sprout now that the elk are in check. Beavers have started to move back in, increasing habitat for birds and insects.
"It's amazing the effect one species, the wolf, can have on the entire ecosystem," says William Ripple, at Oregon State University, co-author of an international report on the profound and cascading impact large animals have on ecosystems.

He and his colleagues say the demise of lions, wolves, bison, sharks, great whales and other large animals is part of the "the sixth mass extinction" now underway, and that their disappearance affects everything from wildfires to the spread of disease.
"The loss of these animals may be humankind's most pervasive influence on nature," the team of 24 scientists from the United States, Europe, Africa and Canada are reporting Friday in the journal Science.
So-called "apex consumers" have roamed the planet for millions of years but have vanished from most of their range, largely because of human hunting and fishing, and habitat loss.

The scientists point to "extensive cascading effects."
"The disappearance of these animals reverberates further than previously anticipated, with far-reaching effects on processes as diverse as the dynamics of disease; fire; carbon sequestration; invasive species; and biogeochemical exchanges among Earth's soil, water and atmosphere," they say.
They also suggest the loss of the top animals can be linked to "many of the ecological surprises that have confronted society over past centuries - pandemics, population collapses of species we value and eruptions of those we do not, major shifts in ecosystem states, and losses of diverse ecosystem services."
The report lists examples from Africa to the Aleutian Islands.

The reduction of lions and leopards in the sub-Sahara caused the baboon population to swell.
This unexpectedly increased transmission of intestinal parasites from baboons to humans as the primates foraged closer to human settlements.
Industrial whaling in the 20th century killed off large numbers of plankton-eating great whales, which sequester carbon into the deep sea in their feces. The scientists say about 105 million tonnes of carbon has ended up in the atmosphere, contributing to climate change, instead of resting at the bottom of the ocean.
Coastal-kelp forests, important marine nurseries and habitat, were decimated when sea-otter populations collapsed from over-hunting in the Pacific Northwest. This was because kelp-grazing sea urchins proliferated when sea otters were no longer around to eat them.

The loss of sharks has lead a boom in the population of cow-nosed rays, which have in turn triggered collapse of shellfish populations along the East Coast of North America.
The researchers, including zoologist Anthony Sinclair at the University of B.C., who could not be reached for comment, say that large animals have long been seen as "riding atop" ecosystems but not really affecting the species and structure below.
That, they say, is a fundamental misunderstanding of ecology.

"By looking at ecosystems primarily from the bottom up, scientists and resource managers have been focusing on only half of a very complex equation," lead author James Estes, at the University of California at Santa Cruz, said in a summary of the findings.
The wolves in Yellowstone show the damage is not necessarily irreversible, Ripple told PostmediaNews.
He and associates have been documenting the "restoration" that started in the park's ecosystem after 31 grey wolves from Alberta were introduced in Yellowstone the 1995 and 1996, and the packs began to grow.

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