The team found that speciation and genetic divergence are related in about a third of the 122 plants, animals, and fungi studied.
"One-third is a big number," Pagel said. "Detractors might have said that number was zero. We've shown, I think, that this is at least common. It doesn't have to happen every time, but it happensin plants, animals, and fungi."
New Species May Boost Evolution
Pagel suggests that the link between speciation and accelerated evolution may have roots in traditional Darwinian theory.
The correlation appears more common in plants, perhaps because so many plants trade pollen, hybridize, and readily form new species. "When [new species arise] they start out in really small groups of a few individuals, and that's where we think the mechanisms that cause the acceleration of evolution are most likely to occur," Pagel said.
"Genetic drift" is one such mechanism.
If a population splits into two groups, and one group is very small, a single random genetic change in the small group can quickly make that entire group diverge rapidly.
A change in skin color, for example, can quickly become a common trait among a small population of a dozen or so individuals.
Larger groups would require many such chance events to produce the same kind of species-wide change. Another possible evolution-boosting mechanism is the role of new species within existing ecosystems.
"When a new species forms, there's a very good chance that it will occupy a different niche from the ancestral species," Pagel said.
"If it didn't, it would be competing directly with the ancestral species, so new species often have to find new ways of making a living."
New niches may require new traits or skills. Therefore, a greater number of genetic mutations may prove successful, resulting in more adaptations living on in the species and getting passed on to later generationsnatural selection in overdrive.
"We think that at speciation there's a rapid burst of adaptive evolution, and once [the new species] has occupied a niche, it can settle down and there's no longer as much pressure for rapid adaptive change."
Genetic results suggest that some 22 percent of all genetic evolution could be associated with speciationeven though such events are rare and short-lived.
"We found that to be a huge number," Pagel said.
Underscoring how rarely successful new species appear, he added, "Consider that, along the lineage leading from our common ancestor with chimpanzees to modern humans, there may be something like ten events of speciation or fewer but perhaps 5 million or more years of gradual evolution."
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