The Cumberland Island bobcat study is valuable because it yielded information that may be useful in future research used to rescue endangered felid populations, such as Iberian lynx or Eurasian lynx, for which extinction risk may be high, Miller-Butterworth explained. Bobcats are not threatened as a species, but the isolated population on Cumberland Island simulates an endangered species scenario in which a population becomes isolated due to habitat loss and fragmentation and loses genetic variation over time — an increasingly common scenario for many endangered species.
“The benefit is we can use this as a case study, or a test case, to figure out what works to re-establish the population’s viability, and then that knowledge potentially can be used to extrapolate what would work for an endangered species where the situation is dire,” she said. “If we make a mistake in our calculations on Cumberland Island, it would be sad, but it wouldn’t result in losing a species.”
Also involved in the research at Penn State were Jessie Edson, genetics laboratory manager, and Tess Gingery, research technologist, both in the Department of Ecosystem Science and Management. Other members of the team were Leslie Hansen, Los Alamos National Laboratory, Los Alamos, New Mexico; James Jordan, Town of Kiawah Island, South Carolina; and Amy Russell, Department of Biology, Grand Valley State University, Allendale, Michigan.
The National Park Service, the U.S. Geological Survey, the Town of Kiawah Island and Penn State Beaver provided support for this project.