Studying genetic variation in the common brown lizard, Anolis sagrei, the researchers found that introduced populations of the lizard in five different countries can be traced back to the Sunshine State as their site of export.

The team analyzed a small region of DNA from more than 600 different individuals to get a genetic "ID card" for each lizard.

The historic home for Anolis sagrei is the Caribbean, especially Cuba, where the researchers have found that there are at least eight genetically distinct groups of the lizard. In the late 1800s, Anolis sagrei was introduced (probably through a shipment of goods) to the Florida Keys, got a toehold and, after a decades-long lag, began spreading into the Florida mainland in the 1940s, most likely from separate introductions.

Jason Kolbe, a doctoral candidate in biology in Arts & Sciences, gathered genetic samples of Anolis sagrei throughout Florida in 2003. Using a genetic database developed in collaboration with fellow WUSTL graduate student Richard Glor, he then analyzed the introduced samples in comparison to the Cuban ones, not only in Florida but also in Hawaii, Taiwan, Jamaica, Grenada and Grand Cayman.

The researchers identified Florida as the source of new populations in the other countries by finding genetic variation shared by Florida and the other introduced populations. Genetic variants found in the newer locations more closely matched those of populations in Florida.

"The basic idea that drove this research was to determine where the newly introduced populations in Florida and elsewhere came from," Kolbe said. "We discovered that once an introduced species gets established in an area, it can become a source for introductions elsewhere.

"And we also found that genetic variation can actually increase during subsequent introductions because with each introduction to Florida, there is a new mixing of genes from the distinct Cuban source populations."

Kolbe, Glor, biology professors Allan Larson, Ph.D., Jonathan B. Losos, Ph.D., and two Cuban collaborators in Havana published their results in the Sept. 9 issue of Nature magazine. The National Science Foundation and the Environmental Protection Agency Science to Achieve Results program funded the study.

Another motivation to analyze and observe the introduced populations was to see if the introduced species are having an impact on the Floridian ecosystem.

It has been noted, Kolbe said, that Anolis sagrei will eat the hatchlings of Anolis carolinensis, little green lizards native to the state.

It has also been noted that some Florida populations of the introduced brown lizards have gotten larger than usual. And the brown lizards have become prey to the Nile monitor, a 7-foot-long lizard native to Africa, but also introduced in Florida, most likely a refugee from a pet store or hobbyist who wanted a unique pet.

"The green lizard populations are being reduced in Florida, especially in southern areas, because it appears that the brown lizard out-competes it," Kolbe said. "It's not really causing any problems for people, except for those who are partial to the green lizards and miss seeing them so much."

The genetic changes occurring in the Florida populations are happening at a much quicker pace than that of typical Darwinian evolution — tens of years versus up to millions. That has caused speculation that a new species or two is evolving from the genetic card-shuffling occurring in Florida.

"These lizards have become a grand experiment," Kolbe said, referring to a long series of studies that Losos and Larson have performed on evolution in Caribbean lizards since the early 1990s.

"Anoles have naturally moved all throughout the Caribbean, but the genes being mixed in Florida and elsewhere could potentially speed up evolution.

"What took millions of years before is happening in dozens of years, maybe even faster than that."