North Carolina State University researchers have received funding from the Defense Advanced Research Projects Agency (DARPA) to develop and test a system that would reduce populations of invasive mice on islands to help conserve threatened seabird populations.
NC State leads the two-year, $3.2 million award that seeks to maintain and protect ecosystem biodiversity through control of invasive rodents. It is one of several funded under DARPA’s Safe Genes program. The award can be renewed for an additional $3.2 million in funding.
NC State researchers and collaborators will develop and test a gene drive system to lower rodent populations. Gene drive systems work by causing a particular gene or genetic trait to get passed down to a high proportion of offspring from generation to generation.
In one approach, said project principal investigator John Godwin, an NC State professor of biological sciences, researchers would use genetic techniques to affect sex ratios by preventing the development of most female offspring. A few fertile males would continue to drive the sex-change construct through subsequent generations. The lack of females would quickly cause mouse populations to plummet.
How do mice affect seabirds on islands? As an example, Godwin said that large populations of mice on one particular island attracted migrating owls that enjoy feasting on mice. Instead of leaving the island to find food elsewhere, the owls stayed on to exploit this mouse bounty. Once the mouse population was depleted, the owls turned their ravenous appetites to endangered birds called petrels, reducing their already low populations.
“Invasive rodents also prey on native species and destroy sensitive habitats,” Godwin said. “We believe a genetic approach to reduce invasive rodent populations may be necessary, as current approaches, while effective, have their limits. A species-specific approach could do a tremendous amount of good.”
Godwin added that islands are important. They contain less than 5 percent of the earth’s land mass but 20 percent of the world’s species and 40 percent of critically endangered species.
“Islands are hotspots of biological diversity, but they are also hotspots for endangered species,” Godwin said.
The project will also develop mathematical models to predict how the gene drive system would function in mice; that effort will be led by NC State mathematical biologist Alun Lloyd, who serves as Drexel Professor of Mathematics. The project will also delve into community engagement and education efforts on gene drive systems, with NC State’s Jason Delborne, an associate professor of forestry and environmental resources, leading that effort.
Godwin stressed the DARPA requirement that testing whether the gene drives developed can reduce mouse numbers will be performed only in highly biosecure, simulated natural environment facilities; no modified mice will be released into the wild or onto any island.
Godwin said that reversibility of the gene drive construct is also an important part of the work.
In the end, Godwin said the Safe Genes program efforts – some of which involve mosquitoes and worms – will “run on parallel tracks aimed at enabling the safe and effective use of promising gene drives.”
NC State will work with academic, nonprofit and government partners on the project, with colleagues from Texas A&M University, the University of Adelaide in Australia, Australia’s Commonwealth Scientific and Industrial Research Organization (CSIRO), Island Conservation and the U.S. Department of Agriculture’s National Wildlife Research Center involved.
– kulikowski –
This post was originally published in NC State News.