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Researchers solve puzzle of Colorado songbird鈥檚 evolution

Researchers solve puzzle of Colorado songbird鈥檚 evolution

Mountains both help create new species and subspecies of the rosy finch and keep them distinct, according to new research from 精品SM在线影片


Speciation鈥攈ow species come to be鈥攁nd how species diverge are two of the most important aspects of biodiversity, yet the conditions upon which these processes occur remains a bit of a mystery. A rosy colored alpine bird found on the mountaintops of Colorado, though, is providing a little insight.

This research, , looked at how species and subspecies of rosy finches differ genetically from one another and why that may be, and found that, while the environment鈥攏amely the differing mountains that they live atop as high-elevation specialists鈥攄o play a role, they do not necessarily act as a firm barrier.

Rather, these barriers create a sort of balance for this species, where some of the species and subspecies remain the same and others diverge into new subspecies altogether.

This research not only provides insight on the remaining challenges to studying the forces involved in species diversification, broadly speaking, but also sheds light on the speciation of this particular songbird, which has been a bit of a mystery to biologists and is increasingly important to study because of its susceptibility to climate change.

Funk with a Rosy Finch

At the top of the page: Mountain tundra where rosy finches are found in Colorado. Photos provided by Erik R. Funk. Above: Funk holding a rosy finch in the field.

鈥淚t鈥檚 uncertain how these changes (from a warming climate) will affect rosy finch distribution. A lot of the hypotheses suggest that species ranges might move upward in elevation, or northward in latitude, and already being at the highest of our elevations, they don鈥檛 really have too much else to go up,鈥 said Erik R. Funk, a PhD student in the Taylor Lab Department of Ecology and Evolutionary Biology at the 精品SM在线影片, and the study鈥檚 lead author.

鈥淭rying to understand the genetic variations that exist within species can be important moving forward to try and craft the best conservation practices. So, if we do expect their ranges to move northward in latitude, is there the possibility that we鈥檙e going to be losing some really unique genetic variation within Rosy Finches, or how might we expect them to stay connected if they continue to be more fragmented?鈥

Rosy finches are a type of mountain finch that inhabit the tundra of high mountains across the Rocky Mountains up to the Arctic. Despite being rather similar genetically, they exhibit extensive color variation in their feathers, making the exact number of species and subspecies, and their evolutionary history, a point of contention with scientists.

This new research, though, delved into this question further. To do that, researchers ran statistical analyses of the genome of 68 rosy finches, including four of the five Asian rosy-finch subspecies; five of the six gray-crowned rosy-finch subspecies which are found in Alaska, western Canada, and the northwestern part of the United States; the black rosy-finch found in the alpine areas of Utah, Wyoming, Idaho, Nevada and Oregon; and the brown-capped rosy finch found above tree-line in Colorado.

Using these data, the researchers grouped the birds into similar clusters, which loosely defined the species or populations, and then examined the different ways in which the populations were interacting to see if there were any genetic and/or environmental factors at play.

鈥淣ow that we鈥檙e in this new era where whole genome data is pretty easy to generate, we have a lot more data and we鈥檙e able to get a lot more resolution into asking these types of questions,鈥 said Funk.

What they found is that the speciation of these birds is somewhat complicated, with some birds able to make the trek between mountains and reproduce with the neighboring population. This, then, allows some gene flow to occur between the populations, while still keeping them largely isolated鈥攁nd their coloration separate.

 

By having all of that data, we鈥檙e able to ask a lot of really interesting questions that maybe we wouldn鈥檛 be able to before."

鈥淭his research is interesting because it seems as though some of these populations may continue to be diverging from one another, even though there鈥檚 kind of this ongoing gene flow, which typically we expect to make populations more similar to one another,鈥 said Funk.

鈥淭here鈥檚 this sort of balance between different evolutionary processes, some of which make populations more different from one another and others make them more similar to one another.鈥

For Scott Taylor, an assistant professor in the Department of Ecology and Evolutionary Biology, this research sets the stage for further research in the field.

"The rosy finches are a really interesting group of high elevation birds that have fascinated natural historians, bird watchers, and biologists for a long time,鈥 said Taylor, who is also an author on the paper. 鈥淓rik's work has helped clarify rosy finch species relationships and sets the stage for examining exactly what makes one species or subspecies of rosy finch different from another."

The researchers plan to use this foundation to next focus in on those regions of the genome to figure out the role they play in how different species and subspecies of rosy finch look or are adapted to their environment.

鈥淚t鈥檚 a lot easier for us now to get genome sequences or sequences of all of the DNA that an individual possesses as it was even five or six years ago,鈥 commented Funk.

鈥淏y having all of that data, we鈥檙e able to ask a lot of really interesting questions that maybe we wouldn鈥檛 be able to before.鈥