Unlike most other land creatures, salamanders don’t have lungs to breath, and must directly absorb oxygen through their wet skin. Because of this trait, they thrive in the humid environment of the mountains, especially underground or undercover. Though their reclusive habitats can make them difficult to find, there are over 50 species throughout the region and their combined biomass could in fact exceed that of birds and mammals here!
Salamanders are very sensitive to changes in both precipitation and temperature, and scientists at the Coweeta Hydrologic Lab have discovered that they represent a hotbed of evolutionary activity.
That’s right, evolution is happening before our eyes, in real time.
Sharing space; trading genes
Dr. John Maerz, an ecologist from the University of Georgia studies these unique creatures. “One of the main things that we’re studying here is the hybrid zone of two species of salamander,” he says, also known as the area in which a pair of salamander species occupy overlapping habitat.
“Our evidence suggests that this hybrid zone is resulting in what we call “adaptive introgression;” genes are moving between these two species in a way that is creating new forms and new combinations of salamanders. And this hybrid zone appears to be expanding.”
“We think this is important because it relates to our growing awareness that evolution occurs very rapidly,” Maerz continues, “and that processes like this will be important for understanding how species will respond to global change like climate change or shifting land use.”
While the phenomenon is interesting from a scientific perspective, Maerz adds that it’s also just exciting to watch: “You’re getting to see, you know, nature inventing itself in new combinations of organisms created. [You can] see how they do and see a potential glimpse into the future.”
A challenging environment
Unfortunately, changes in the ecosystem could also be making it more difficult for salamanders as a group to survive. Disturbed creeks cause salamanders to be flushed downstream during flood events, while droughts restrict available habitat for this moisture-dependent group of species. Research done at Coweeta points to the importance of protecting river and stream corridors in the region by keeping them both forested and undisturbed.