From prehistoric resident to runaway pet: First tegu fossil found in the US

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Today, the Argentine black and white tegu is considered an invasive species in Florida, but long before they arrived via the pet trade, their prehistoric ancestors roamed this region. Credit: Kevin Blackwell / Amphibian Foundation

Originally from South America, the charismatic tegu made its way to the United States via the pet trade of the 1990s. After wreaking havoc in Florida's ecosystems, the exotic lizard was classified as an invasive species. But a recent discovery from the Florida Museum of Natural History reveals the reptiles are no strangers to the region—tegus were here millions of years before their modern relatives arrived in pet carriers.

Described in a study in the Journal of Paleontology, this breakthrough came from a single, half-inch-wide vertebra fossil that was unearthed in the early 2000s and puzzled scientists for the next 20 years. Jason Bourque, now a fossil preparator in the museum's vertebrate paleontology division, came across the peculiar fossil in the museum's collection when he was freshly out of graduate school.

"We have all these mystery boxes of fossil bones, so I was digging through, and I kept coming across this one vertebra," Bourque said. "I could not figure out what it was. I put it away for a while. Then I'd come back and say, Is it a lizard? Is it a snake? In the back of my mind for years and years, it just sat there."

The vertebra had been found in a fuller's earth clay mine just north of the Florida border, after a tipoff from the local work crew prompted a visit from the museum's paleontologists. There was just one catch: The mine was slated to close, and its quarry, along with any exposed fossils, would soon be filled in. Working against a deadline, the scientists excavated as many fossils as they could and brought them back to the museum, where the vertebra sat in storage, its identity unresolved.

Years later, Bourque stumbled across an image of tegu vertebrae while looking through studies for a new research paper.

"I saw the tegu, and I just knew right away that's what this fossil was," Bourque said.

Today, tegus are of particular interest to Florida's wildlife biologists and conservationists. Their bold patterns and docile attitudes make them attractive pets, but that often changes once they reach nearly 5 feet in length and weigh 10 pounds. Exotic pets have a knack for slipping free—or being released—into the wild, where they can take a heavy toll on native ecosystems. This is the case with modern tegus in Florida.

But until this point, there was no record of prehistoric tegus in North America. Bourque needed evidence to back up his revelation. Paleontologists typically work with multiple bones to identify an animal, but Bourque had just a single vertebra. He recruited his colleague, Edward Stanley, director of the museum's digital imaging laboratory, who saw an opportunity to try out a new machine-learning technique—one that doesn't rely on a paleontologist's decades of specialized knowledge.

With a CT scan of the unidentified fossil, Stanley carefully measured and landmarked each bump, hole and furrow of the fossil. Next, he needed vertebrae from other tegus and related lizards for comparison. Fortunately, the team had access to an abundance of specimens thanks to the museum's openVertebrate (oVert) project, a free, online collection of thousands of 3D images of vertebrates.

A shape analysis of the vertebra allowed scientists to pinpointed its original position in the lizard's spinal column. Credit: Bourque and Stanley, 2025

Instead of measuring these images by hand, Stanley used a technique developed by Arthur Porto, the museum's curator of artificial intelligence for natural history and biodiversity, to automatically recognize and fit the corresponding landmarks onto more than 100 vertebrae images from the database. By comparing the data of all their shapes, he determined the fossil matched the other tegus and pinpointed its original position at the middle of the lizard's spinal column.

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While the fossil was unmistakably a tegu vertebra, it wasn't an exact match with any of the specimens in the database. This meant the team had uncovered a new species, which they named Wautaugategu formidus. Wautauga is the name of a forest near the mine where the fossil was discovered. Although the word's origin is unclear, it is thought to mean "land of the beyond," which Bourque and Stanley found fitting for the long-extinct species, that—despite having ancestral ties to South America—ended up in present-day Georgia.

"Formidus," a Latin word meaning "warm," alludes to the reason these lizards likely wound up in the southeastern United States in the first place. The fossil is from the Middle Miocene Climatic Optimum, a particularly warm period in Earth's geologic history.

At the time, sea levels were significantly higher than today, and with most of Florida underwater, the historic coastline would have been near the site of the fossil bed. Tegus are terrestrial lizards, but they are strong swimmers. The warm climate may have tempted them to travel from South America into present-day Georgia, but the region did not remain hospitable for long.

"We don't have any record of these lizards before that event, and we don't have any records of them after that event. It seems they were here just for a blip, during that really warm period," Bourque said.

The tegus would likely have struggled and ultimately disappeared as global temperatures cooled. Like other egg-laying animals, their reproduction is highly dependent on temperature, and the cold may have limited their ability to produce or hatch eggs.

Finding more tegu fossils may help demystify the prehistoric lizard's brief stint in North America.

"I'm ready to go up to the Panhandle and try to find more fossil sites along the ancient coastal ridge near the Florida-Georgia border," Bourque said.

Stanley, meanwhile, hopes the next find won't languish in storage. The combination of 3D modeling and artificial intelligence to identify fossils without relying on decades of specialized knowledge could dramatically speed up the process. With open access to data worldwide, it could even lead to a global database for fossil identification.

"There are boxes full, shelves full, of fossils that are unsorted because it requires a huge amount of expertise to identify these things, and nobody has time to look through them comprehensively," Stanley said. "This is a first step towards some of that automation, and it's very exciting to see where it goes from here."

More information: Jason R. Bourque et al, A tegu-like lizard (Teiidae, Tupinambinae) from the Middle Miocene Climatic Optimum of the southeastern United States, Journal of Paleontology (2025). DOI: 10.1017/jpa.2024.89

Journal information: Journal of Paleontology

Provided by Florida Museum of Natural History