With Less Snow, Can Coat-Changing Animals Adapt Quick Enough To Avoid Predators?
While you may be able to easily change your coat when the snow melts, it’s not so simple for animals whose fur turns white in winter for camouflage. A new study finds they'll need to rapidly evolve to match a climate with less snow.
The Pacific Northwest is home to four mammals that change color with the seasons—white in winter, brown during the rest of the year. Short-tailed and long-tailed weasels, snowshoe hares and white-tailed jackrabbits live and die by the effectiveness of this camouflage.
But in a predicted future with less snow cover, survival could depend on staying brown all year long. Scott Mills, a biologist at the University of Montana, said some wild bunnies do that already.
"The animals in the south and on the coast stay brown year round,” he said.
Mills led a research team that mapped other places worldwide that could be "hotspots" for evolution to keep pace with climate change. One of those zones runs down the length of the Cascade Mountains from British Columbia to the Northern Sierra.
Mills said the Cascade Range is home to mix of winter brown and winter white hares.
"Are the conditions there for rapid evolutionary change to happen? What are those conditions? You need to have variation in place,” Mills said. “In this case, we do."
"We have always been trained to think that evolution is really only relevant to fossil kinds of time scales, deep evolutionary time." Mills said in an interview. "But one of the most remarkable sets of insights in the last 10 to 20 years has been the realization that actually, meaningful evolutionary change can happen fast. It can happen on what we would call ecological time scales. It can happen on the order of three to five to ten generations.”
Mills said the identified hotspot zones deserve protection to nurture the adaptation, propagation and dispersal of animals better suited to a less snowy climate. Much of the Cascade Range is national forest.
Failed adaptation could "reverberate through their ecosystems," the authors of the study wrote in the journal Science, noting the importance of hares as food for many predators. "Mismatch in seasonal coat color provides a visual metaphor for how climate change may affect biodiversity."
"Extinction is not inevitable," Mills wrote in a follow-up blog post. "We needn’t panic; rather, pushing for large and connected populations that hold the special sauce to empower nature’s adaptation engine to sustain wild animals through substantial challenges.”
Mills said the possibility of "evolutionary rescue" does not absolve humankind of taking action to mitigate global warming.
"Of course we still need to all work to reduce the carbon footprint," Mills said. "But meanwhile, whether you're a park manager or you're a regular citizen, you can ask 'Well, what can we do at a more local level to help species persist even in the face of a changing climate.'"
The paper from Mills' lab appears online in Science and will be published in the March 2 print issue.
Science institutions and natural history museums around the world collaborated with the University of Montana team on this study spanning from North Carolina to Russia, Austria, Germany and Portugal. National Science Foundation grants provided significant support for the project.