New! Sign up for our free email newsletter.
Science News
from research organizations

Corridors between Western U.S. national parks would greatly increase the persistence time of mammals

Date:
January 11, 2023
Source:
University of Utah
Summary:
National parks are the backbone of conservation. Yet mounting evidence shows that many are too small to sustain long-term viable populations. A new study analyzed the value of establishing ecological corridors for large mammals between Yellowstone and Glacier National Parks and between Mount Rainier and North Cascades National Parks. Findings show that these corridors would not only enlarge populations, but also allow species to shift their geographic ranges more readily in response to climate change.
Share:
FULL STORY

National parks are the backbone of conservation. Yet mounting evidence shows that many parks are too small to sustain long-term viable populations and maintain essential, large-scale ecological processes, such as large mammal migrations and natural disturbance regimes.

A new study published on Jan. 11, 2023, in Scientific Reports found that enhancing ecological connectivity, known as "corridors" or "linkages," among several of the oldest and largest national parks in the Western United States would greatly extend the time that many mammal species populations can persist. The authors analyzed the value of establishing ecological corridors for large mammals between Yellowstone and Glacier National Parks and between Mount Rainier and North Cascades National Parks. Their findings show that these corridors would not only enlarge populations, but also allow species to shift their geographic ranges more readily in response to climate change.

"Eliminating barriers of movement between parks and more carefully managing land-use along these pathways are crucial for the survival of many mammal species," said William Newmark, research curator at the Natural History Museum of Utah and lead author of the study. "Establishing an expanded protected area network based on identified mammal pathways and incorporating adjacent wilderness areas would greatly enlarge available habitat for mammal species. And this would have a very positive effect on species persistence time."

The authors found that linking Yellowstone National Park with Glacier National Park, and Mount Rainier National Park with North Cascades National Park would increase the long-term persistence time of mammal species by a factor of 4.3 relative to the persistence time of species in fragmented, individual parks.

The proposed corridor network would cross two- and four-lane highways, which would require multiple ecological bridges over and under the roadways. Fortunately, highway authorities in the Western U.S. and Canada are beginning to construct such over- and underpasses for wildlife.

"However, a much greater effort will certainly be required if we are to reduce the known adverse impacts of highways on species movement and dispersal," said Paul Beier, professor emeritus of Northern Arizona University and co-author of the study.

It's well supported that ecological corridors enhance population persistence of species, but most studies have been small-scale experiments. There are few assessments of the value of ecological linkages at large spatial scales. This study's analysis drew heavily upon patterns of species loss over time in habitat fragments around the world.

"The analytical approach presented in this paper can provide conservation planners and practitioners with a powerful method of prioritizing and quantifying the value of ecological linkages between protected areas," said John Halley, professor at the University of Ioannina and co-author of the study.

Over the past two decades, there has been worldwide efforts to establish networks of reserves interconnected by protected corridors. One of the boldest visions was first articulated a quarter century ago by co-author Michael Soulé, professor emeritus at the University of California, Santa Cruz, who passed away before this paper was completed. Soulé advocated to establish a protected area network that would extend from the top of Alaska down to the southern tip of South America at Tierra del Fuego. A more regionally-focused initiative to connect Canada's Yukon territory to Yellowstone National Park in the northern Rocky Mountains has made considerable progress.

The study's analysis highlights the positive effects that large-scale conservation initiatives can have on biodiversity conservation. The authors note that enhancing ecological connectivity between protected areas in Western U.S. and Canada could serve as an important template for large-scale biodiversity conservation both nationally and worldwide in the 21st century.

Other authors on the study include Phoebe B. McNeally of the University of Utah and Samuel A. Cushman of the U.S. Forest Service.


Story Source:

Materials provided by University of Utah. Original written by Lisa Potter. Note: Content may be edited for style and length.


Journal Reference:

  1. William D. Newmark, John M. Halley, Paul Beier, Samuel A. Cushman, Phoebe B. McNeally, Michael E. Soul�. Enhanced regional connectivity between western North American national parks will increase persistence of mammal species diversity. Scientific Reports, 2023; 13 (1) DOI: 10.1038/s41598-022-26428-z

Cite This Page:

University of Utah. "Corridors between Western U.S. national parks would greatly increase the persistence time of mammals." ScienceDaily. ScienceDaily, 11 January 2023. <www.sciencedaily.com/releases/2023/01/230111075837.htm>.
University of Utah. (2023, January 11). Corridors between Western U.S. national parks would greatly increase the persistence time of mammals. ScienceDaily. Retrieved December 20, 2024 from www.sciencedaily.com/releases/2023/01/230111075837.htm
University of Utah. "Corridors between Western U.S. national parks would greatly increase the persistence time of mammals." ScienceDaily. www.sciencedaily.com/releases/2023/01/230111075837.htm (accessed December 20, 2024).

Explore More

from ScienceDaily

RELATED STORIES