When evolution is not so slow and gradual

What’s the secret to surviving during times of environmental change? Evolve — quickly.

A new article in The American Naturalist finds that guppy populations introduced into new habitats developed new and advantageous traits in just a few years. This is one of only a few studies to look at adaptation and survival in a wild population.

A research team led by Swanne Pamela Gordon from the University of California, Riverside studied 200 guppies that had been taken from the Yarra River in Trinidad and introduced into two different environments in the nearby Damier River, which previously had no guppies. One Damier environment was predator-free. The other contained fish that occasionally snack on guppies.

Eight years after their introduction, the team revisited the Damier guppies to see what adaptive changes they might have picked up in their new environments. The researchers found that the females had altered their reproductive effort to match their surroundings. In the environment where predators were present, females produced more embryos each reproductive cycle. This makes sense because where predators abound, one might not get a second chance to reproduce. In less dangerous waters, females produced fewer embryos each time, thus expending fewer resources on reproduction.

Finally, the researchers wanted to see if these adaptive changes actually helped the new population to survive. So they took more guppies from the Yarra, marked them, and put them in the Damier alongside the ones that had been there for eight years. They found that the adapted guppies had a significant survival advantage over the more recently introduced group.

In particular, juveniles from the adapted population had a 54 to 59 percent increase in survival rate over those from the newly introduced group. In the long run, survival of juveniles is crucial to the survival of the population, the researchers say.

The fact that fitness differences were found after only eight years shows just how fast evolution can work — for short-lived species anyway.

“The changes in survival in our study may initially seem encouraging from a conservation perspective,” the authors write. “[B]ut it is important to remember that the elapsed time frame was 13-26 guppy generations. The current results may therefore provide little solace for biologists and managers concerned with longer-lived species.”

Swanne P. Gordon, David N. Reznick, Michael T. Kinnison, Michael J. Bryant, Dylan J. Weese, Katja Räsänen, Nathan P. Millar, and Andrew P. Hendry, “Adaptive Changes in Life History and Survival following a New Guppy Introduction,” The American Naturalist, July 2009

Since its inception in 1867, The American Naturalist has maintained its position as one of the world’s most renowned, peer-reviewed publications in ecology, evolution, and population and integrative biology research. While addressing topics in community and ecosystem dynamics, evolution of sex and mating systems, organismal adaptation, and genetic aspects of evolution, AmNat emphasizes sophisticated methodologies and innovative theoretical syntheses–all in an effort to advance the knowledge of organic evolution and other broad biological principles.


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