Date:
October 8, 2014
Source:
University of California - Davis
Summary:
Cut off by freeways and
human development, mountain lions in southern California are facing a
severe loss of genetic diversity, according to a new study. Pumas in the
Santa Ana Mountains display lower genetic diversity than those from
nearly every other region in the state.
Cut
off by freeways and human development, mountain lions in southern
California are facing a severe loss of genetic diversity, according to a
new study led by the University of California, Davis in partnership
with The Nature Conservancy.
The study, published today in the journal PLOS ONE,
represents the largest genetic sampling of mountain lions, or pumas, in
southern California. It raises concerns about the current status of
mountain lions in the Santa Ana and Santa Monica mountains, as well as
the longer-term outlook for mountain lions across southern California.
UC Davis School of Veterinary Medicine scientists collected and analyzed DNA samples from 354 mountain lions statewide, including 97 from southern California. Pumas in the Santa Ana Mountains displayed lower genetic diversity than those from nearly every other region in the state.
Santa Ana mountain lions show dramatic genetic isolation and have less in common with their neighbors in the Santa Monica Mountains than with those in the Sierra Nevada, underscoring the increasing seclusion of pumas in southern California.
The Santa Ana Mountain range, located south of Los Angeles and north of San Diego, is surrounded by urbanization and a growing population of about 20 million people. A small habitat linkage to the southeast connects pumas to the Peninsular Range, but it is bisected by Interstate 15 -- a busy 10-lane highway -- and associated human development. The study highlights the urgency to maintain and enhance the little connectivity remaining for coastal mountain lions, particularly across I-15.
The study also showed that the Santa Ana pumas recently went through a "population bottleneck," when the population's size sharply decreased to a fraction of its original size.
"The genetic samples give us a clear indication that there was a genetic bottleneck in the last 80 or so years," said lead author Holly Ernest, a professor with the Karen C. Drayer Wildlife Health Center and the Veterinary Genetic Laboratory at UC Davis at the time of the study. She is now a professor at the University of Wyoming, Laramie. "That tells us it's not just natural factors causing this loss of genetic diversity. It's us -- people -impacting these environments."
Pumas in the Santa Monica Mountains are similarly threatened by low genetic diversity, inbreeding, and lions killing other lions, according to a study co-authored by Ernest published in September's issue of Current Biology. Just one lion was known to cross Highway 101 during the study period, and he significantly increased the genetic diversity of that population, the study found.
Winston Vickers, co-author of the PLOS ONE study and leader of the puma field study in southern California, said the studies help paint a conservation picture of the region and reinforce the idea that very little movement across the freeway is occurring. "It's not just one isolated spot you can dismiss," said Vickers, an associate veterinarian with the UC Davis Wildlife Health Center. "It can happen anywhere. If we keep building without attention to these issues, we're going to keep creating more pockets of isolation where animals can no longer connect with each other."
Study co-author Scott Morrison, science director for The Nature Conservancy in California, said the conservation implications of the highway barrier are serious. "This study really highlights the impact a road can have on wildlife," he said. "The land-use decisions made along Interstate 15 over the next few years may well be fateful for lions in the Santa Ana Mountains."
For a textbook example of why genetic diversity is important, look to the Florida panther. Loss of genetic diversity among the panthers had become so severe by the 1990s that panthers were having trouble reproducing. Several of those that did reproduce had babies with heart defects. Millions of dollars have since been spent on their slow recovery.
In addition to low genetic diversity, southern California pumas are threatened by habitat loss and fragmentation, and death from numerous causes including vehicles, depredation permits, poaching, disease, public safety kills, wildfire and poisoning. An elevated combination of these factors could be a tipping point for the population.
However, Ernest said it is not too late to protect the region's mountain lions. "I think there could be hope for this population," Ernest said. "They're at a point where they can be monitored and protected. They don't have to end up like Florida panthers. With early interventions, we wouldn't have to spend millions and millions of dollars later."
Possible measures could include protecting migration corridors and some lands slated for development that could connect the Santa Anas to areas in the east, as well as strategically installing protective corridors for the lions to navigate busy highways.
UC Davis School of Veterinary Medicine scientists collected and analyzed DNA samples from 354 mountain lions statewide, including 97 from southern California. Pumas in the Santa Ana Mountains displayed lower genetic diversity than those from nearly every other region in the state.
Santa Ana mountain lions show dramatic genetic isolation and have less in common with their neighbors in the Santa Monica Mountains than with those in the Sierra Nevada, underscoring the increasing seclusion of pumas in southern California.
The Santa Ana Mountain range, located south of Los Angeles and north of San Diego, is surrounded by urbanization and a growing population of about 20 million people. A small habitat linkage to the southeast connects pumas to the Peninsular Range, but it is bisected by Interstate 15 -- a busy 10-lane highway -- and associated human development. The study highlights the urgency to maintain and enhance the little connectivity remaining for coastal mountain lions, particularly across I-15.
The study also showed that the Santa Ana pumas recently went through a "population bottleneck," when the population's size sharply decreased to a fraction of its original size.
"The genetic samples give us a clear indication that there was a genetic bottleneck in the last 80 or so years," said lead author Holly Ernest, a professor with the Karen C. Drayer Wildlife Health Center and the Veterinary Genetic Laboratory at UC Davis at the time of the study. She is now a professor at the University of Wyoming, Laramie. "That tells us it's not just natural factors causing this loss of genetic diversity. It's us -- people -impacting these environments."
Pumas in the Santa Monica Mountains are similarly threatened by low genetic diversity, inbreeding, and lions killing other lions, according to a study co-authored by Ernest published in September's issue of Current Biology. Just one lion was known to cross Highway 101 during the study period, and he significantly increased the genetic diversity of that population, the study found.
Winston Vickers, co-author of the PLOS ONE study and leader of the puma field study in southern California, said the studies help paint a conservation picture of the region and reinforce the idea that very little movement across the freeway is occurring. "It's not just one isolated spot you can dismiss," said Vickers, an associate veterinarian with the UC Davis Wildlife Health Center. "It can happen anywhere. If we keep building without attention to these issues, we're going to keep creating more pockets of isolation where animals can no longer connect with each other."
Study co-author Scott Morrison, science director for The Nature Conservancy in California, said the conservation implications of the highway barrier are serious. "This study really highlights the impact a road can have on wildlife," he said. "The land-use decisions made along Interstate 15 over the next few years may well be fateful for lions in the Santa Ana Mountains."
For a textbook example of why genetic diversity is important, look to the Florida panther. Loss of genetic diversity among the panthers had become so severe by the 1990s that panthers were having trouble reproducing. Several of those that did reproduce had babies with heart defects. Millions of dollars have since been spent on their slow recovery.
In addition to low genetic diversity, southern California pumas are threatened by habitat loss and fragmentation, and death from numerous causes including vehicles, depredation permits, poaching, disease, public safety kills, wildfire and poisoning. An elevated combination of these factors could be a tipping point for the population.
However, Ernest said it is not too late to protect the region's mountain lions. "I think there could be hope for this population," Ernest said. "They're at a point where they can be monitored and protected. They don't have to end up like Florida panthers. With early interventions, we wouldn't have to spend millions and millions of dollars later."
Possible measures could include protecting migration corridors and some lands slated for development that could connect the Santa Anas to areas in the east, as well as strategically installing protective corridors for the lions to navigate busy highways.
Story Source:
The above story is based on materials provided by University of California - Davis. Note: Materials may be edited for content and length.
The above story is based on materials provided by University of California - Davis. Note: Materials may be edited for content and length.
Journal Reference:
- Holly B. Ernest, T. Winston Vickers, Scott A. Morrison, Michael R. Buchalski, Walter M. Boyce. Fractured Genetic Connectivity Threatens a Southern California Puma (Puma concolor) Population. PLoS ONE, 2014; 9 (10): e107985 DOI: 10.1371/journal.pone.0107985
University
of California - Davis. "Highway runs through it: Mountain lions in
southern California face genetic decay." ScienceDaily. ScienceDaily, 8
October 2014.
<www.sciencedaily.com/releases/2014/10/141008153628.htm>.
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