Saturday, May 7, 2016

So while there has been all type of point/counterpoint about whether top down impacts of Trophic predators on prey animals actually helps optimize plant biodiversity, Oregon State review of 24 studies over the past 15 years does in fact show that the presence of Wolves in Yellowstone National Park is a boon for biodiversity.................So Bill Ripple, Robert Beschta and John Laundre's LANDSCAPE OF FEAR hypothesis was and is a truism----Wolves, Bears, Pumas, Bobcats, Lynx, Coyotes, Fishers, Martens and the array of our other native Carnivores not only eat hoofed browsers but they also keep them vigilant and on the move, allowing the widest array of plant life to flourish in any given natural system--------------------“We reached the old wolf in time to watch a fierce green fire dying in her eyes"................................ "I realized then, and have known ever since, that there was something new to me in those eyes — something known only to her and to the mountain".......................... "I was young then, and full of trigger-itch"...............................; "I thought that because fewer wolves meant more deer, that no wolves would mean hunters’ paradise"................................ "But after seeing the green fire die, I sensed that neither the wolf nor the mountain agreed with such a view"............... “Since then I have lived to see state after state extirpate its wolves"............................ "I have watched the face of many a newly wolfless mountain, and seen the south-facing slopes wrinkle with a maze of new deer trails"........................ "I have seen every edible bush and seedling browsed, first to anemic desuetude, and then to death. I have seen every edible tree defoliated to the height of a saddlehorn".......................... "Such a mountain looks as if someone had given God a new pruning shears, and forbidden Him all other exercise"........... … "I now suspect that just as a deer herd lives in mortal fear of its wolves, so does a mountain live in mortal fear of its deer"--AldoLeopold



Studies confirm effect of wolves, elk on tree recovery in Yellowstone National Park


05/05/2016
CORVALLIS, Ore. – An analysis of 24 studies over a 15-year period has confirmed that wolves and their influence on elk represent a major reason for the recovery of trees that had previously been declining for decades in Yellowstone National Park.







Despite long-term trends of increased temperatures and reduced precipitation, trees such as cottonwood, willow, aspen and other woody species have been showing signs of accelerated growth in many areas since wolves were restored to the park in 1995. Beavers and riparian songbirds are also showing signs of coming back to areas where they had been missing or in decline since the 1930s.
Still, it will likely take many years for established shrubs and trees to reach a size sufficient to produce the abundance of berries and seeds that support a diverse ecosystem.
Those are among the conclusions reported today in the journal Biological Conservation by Robert Beschta and William Ripple, two professors in the Oregon State University College of Forestry. They analyzed the results of 24 studies of streamside vegetation published since 2001 and reviewed long-term trends in temperature, precipitation, snowpack and stream discharge.
“When I first started studying this in 2001,” said Beschta, “I was skeptical that elk, a native ungulate, could stop nearly all cottonwood recruitment. But it was the elk that had damaged plant communities during the period when wolves were absent, and the reductions in elk browsing, since wolves have returned, are allowing them to begin recovering.”








In subsequent studies, Beschta and Ripple, as well as other researchers, measured the diameter of cottonwoods and aspen in the park’s northern range.  They found young trees almost completely missing.
“For decades, nothing had been growing into the smaller age classes of trees because of intensive elk browsing,” Beschta said. 





In their latest assessment, Beschta and Ripple reviewed 11 published studies of willow, six of aspen and five of cottonwood as well as one each of service berry and thinleaf alder. All but two of the studies showed increases in height, diameter, canopy cover or recruitment for these species. The area of land covered by willow, for example, doubled between 1991 and 2006. By 2003, young aspen trees in many areas were starting to grow measurably higher.
More than half of the reviewed studies also measured browsing effects on plants, caused principally by elk. Those studies concluded that tree recovery had begun mostly because of a decrease in browsing.





“Climate may influence whether trees recover more quickly in some areas than in others to some degree, but the real issue for plants growing in Yellowstone is, how often are they browsed by ungulates?” Beschta added.
Elk numbers in Yellowstone have declined by more than two-thirds since 1995, from a high of nearly 20,000 to less than 5,000 today. The numbers and impacts of deer and pronghorn are relatively small, but in the past decade, bison herds have grown, and they tend to reside in valley bottoms much of the year. Bison grazing has prevented cottonwoods, willow and other plants from successfully recovering in parts of the Lamar Valley, he said.
Over the past 20 years, mean temperatures and precipitation in the northern range have changed in comparison to the long-term mean going back to 1895, when recordkeeping began. As measured at the Mammoth weather station in Yellowstone, annual mean temperatures today are more than 2 degrees Fahrenheit warmer than in 1895 and annual precipitation almost 3 inches lower. 







       
Research results following wolf reintroduction are generally supportive of the concept that the contemporary carnivore guild has, via a trophic cascade, mediated the effects of elk herbivory on riparian plant communities, the authors wrote. The ongoing reduction in elk herbivory has thus been helping to recover and sustain these plant communities in northern Yellowstone, thereby improving important food-web and habitat support for numerous terrestrial and aquatic organisms.
About the OSU College of Forestry: For a century, the College of Forestry has been a world class center of teaching, learning and research. It offers graduate and undergraduate degree programs in sustaining ecosystems, managing forests and manufacturing wood products; conducts basic and applied research on the nature and use of forests; and operates 14,000 acres of college forests.






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