They wanted to know if it is true that problematic invasive species often spread widely in their new habitats because they don't encounter predators or diseases that help keep them in check in their home ranges.
"There is this assumption that when plants invade a new area that they become much more abundant in the new area than they were in the native areas," said Harpole. "It turns out that, on average, they aren't any more abundant away from home than they are at home."
Harpole says there is a "rule of 10s" that can apply to invasive species.
"Of, say, 100 plants that arrive in a new area, only about 10 percent of those will survive without being in a greenhouse or some other controlled area," said Harpole. "Of those 10 that can survive, only about 10 percent of those really cause problems.
"When you think about all the species we've brought over from other areas, relatively few have become serious pest species. The problem is we've brought over so many that quite a few have become major problems and they get a lot of attention."
Harpole points to the kudzu plant as an example.
Kudzu was introduced from Asia as a soil erosion plant more than a century ago. It now chokes out native species from Texas to Maine to Florida, according to the U.S. Department of Agriculture.
Problem plants like this are uncommon when compared to all the exotic species in a region, but they do get the most interest and may give the impression that species that escape their home range often spread and take over new habitats and become more abundant than before, says Harpole.
Invasion can also be thought of more generally as a process in which new species enter new habitats. Even plants now considered native were once invaders, says Harpole.
When glaciers receded from the Midwest 10,000 years ago, there were no native species in the area -- the retreating ice left bare ground open for invasion.
"All the plants that are now seen as native were invasive in the past in the sense that they had to spread across the landscape," he said.
"What's different today is that we move plants so much faster than they would move by themselves. Now a species can become global in a matter of years, where it may have taken tens of thousands of years in the past," said Harpole.
Harpole is coauthor of a research paper led by Jennifer Firn of Queensland University of Technology, Australia, and is published in the journal Ecology Letters. Coordination of the study was funded by the National Science Foundation.
Journal Reference:
- Jennifer Firn, Joslin L. Moore, Andrew S. MacDougall, Elizabeth T. Borer, Eric W. Seabloom, Janneke HilleRisLambers, W. Stanley Harpole, Elsa E. Cleland, Cynthia S. Brown, Johannes M. H. Knops, Suzanne M. Prober, David A. Pyke, Kelly A. Farrell, John D. Bakker, Lydia R. O’Halloran, Peter B. Adler, Scott L. Collins, Carla M. D’Antonio, Michael J. Crawley, Elizabeth M. Wolkovich, Kimberly J. La Pierre, Brett A. Melbourne, Yann Hautier, John W. Morgan, Andrew D. B. Leakey, Adam Kay, Rebecca McCulley, Kendi F. Davies, Carly J. Stevens, Cheng-Jin Chu, Karen D. Holl, Julia A. Klein, Philip A. Fay, Nicole Hagenah, Kevin P. Kirkman, Yvonne M. Buckley. Abundance of introduced species at home predicts abundance away in herbaceous communities. Ecology Letters, 2011; 14 (3): 274 DOI: 10.1111/j.1461-0248.2010.01584.x
Courtesy: ScienceDaily
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