Scientists believe they may have new insights into why passenger pigeons went extinct, after analyzing DNA from the toes of birds that have been carefully preserved in museums for over a century.
"We were hoping that we could get to the bottom of why they went extinct so quickly — why it was that this giant population of birds suddenly became extinct, entirely extinct, over the course of just a couple of decades," explains Beth Shapiro of the University of California, Santa Cruz, one of the researchers on a newly released study in the journal Science.
Billions of passenger pigeons once flew over North America, flocking together in huge clouds of birds. "There are crazy historic records about this thing blocking out the daytime sky for hours at a time," Shapiro says.
These awesome congregations also made the birds easy to hunt, and their numbers started to decline rapidly in the late 19th century. The last known passenger pigeon, Martha, lived at the Cincinnati Zoo until her death in 1914. Her body got frozen inside a 300-pound block of ice and shipped by train to the Smithsonian in Washington, D.C., where tourists can see her stuffed body on display in a glass case.
"Why did little tiny populations of this bird not somehow survive in some refugial forest somewhere?" Shapiro says. "Why did they just go from billions to none?"
Museums have many other passenger pigeons besides Martha in their collections, and the researchers recently persuaded curators to let them take tissue samples from scores of the birds. All the team needed was a tiny piece of skin from the bottom of one of the pigeon's toes. "And from that," Shapiro says, "we were able to generate the entire genome sequence from several of these different birds."
They compared the passenger pigeons' DNA to that of its closest living relatives, band-tailed pigeons, which live across the west coast of North America. Band-tailed pigeons are very similar to passenger pigeons, except they don't live in groups of billions. "The only difference between them is really this population size, so we can start to dig into what the evolutionary consequences of being a super-big population might be," Shapiro says.
A genetic study done a several years ago suggested that passenger pigeons were not always super-abundant, but might have had dramatic fluctuations in population size that could have increased their vulnerability to extinction from hunting. But this new analysis suggests that's not the case.
"We find evidence that the passenger pigeon population size was actually large and it was stable for a really long time before hunting started in the 19th century," says Gemma Murray, one of the researchers from the University of California, Santa Cruz.
There's also evidence that passenger pigeons had a high rate of adaptive evolution, suggesting that they adapted to living in a large population.
"It's known that they collaborated in finding food, and they also collaborated in rearing young," Murray says. "And so these sorts of behaviors are the sorts of things which might work really well when your population size is large and dense. But when hunting had a big impact on their population, and their numbers went down hugely in the 19th century, maybe those things didn't work anymore."
The bottom line, according to Shapiro, is that "passenger pigeon extinction was avoidable. It was entirely our fault. We over-hunted and over-exploited this amazing animal, and we should try to be careful about what we're doing today."
Eric Routman, a researcher at San Francisco State University who studies the genetic aspects of evolution but was not involved in the study, says the findings are "hugely interesting in terms of the relationship between the size of the population and the amount of genetic diversity."
But, he adds, "I don't really think it helps us very much in explaining why they went extinct."
That view was echoed by Bob Zink, a scientist at the University of Nebraska-Lincoln who worked on the earlier study suggesting passenger pigeon populations had fluctuated wildly in the past. "I'm not sure that either one of our papers provides any genetic insights into why they went extinct," he says.
To him, the birds appear to be a victim both of humans and their own biology. "We reduced the population to a point where their own biology was unable to succeed," Zink says.
Helen James, curator of birds at the National Museum of Natural History at the Smithsonian, says she is "extremely impressed with the amount of data that we can now get from these little toepads, from these old specimens of extinct birds. We can learn things that we just never imagined, 10 years ago, that we would be able to learn about the history of these birds."
She notes that a lot of conservation efforts focus on small, rare populations, and that this might be a real oversight. "We have to understand what's going on in populations, what's going on in the ecosystem at large," James says. "Because if a major factor that allows the species to survive suddenly changes, you absolutely can have sudden disappearances of species that are ecologically playing a really large role. And that can have cascading effects."
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