KOMODO DRAGONS

Komodo dragons have iron-coated teeth—never before seen in reptiles

Just when the world’s largest reptile couldn’t get any more metal, scientists made a surprising discovery.

Adult male Komodo dragons compete for a goat carcass.
Komodo dragons (pictured, males eating a goat carcass) are native to Indonesia’s Lesser Sunda Islands.
PHOTOGRAPH BY STEFANO UNTERTHINER, NAT GEO IMAGE COLLECTION
By Alice Sun
July 26, 2024 NATIONAL GEOGRAPHIC
The teeth of the Komodo dragon are a sight to behold. Triangular, curved, and armed with a serrated edge similar to a steak knife, they are perfectly adapted to cut into the flesh of their prey.

Now, a new study has uncovered another marvel of dragon teeth: they’re coated in iron.

The world’s largest reptile, the Komodo dragon is an endangered carnivore native to Indonesia. Paleontologists are particularly interested in dragon teeth because of their similarities with dinosaurs, which may provide insights into tooth evolution.

“We’ve never seen iron in reptile teeth, which is very interesting,” says study co-author Domenic D’Amore, a paleontologist at Daemen University in New York.

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A close-up image of a Komodo dragon tooth shows orange-tinged iron on its cutting edge.

Gnawing mammals such as beavers, rats, and shrews sport the metal in their teeth, which toughens their bite. But scientists have long believed reptile teeth didn’t have special adaptations to keep their weaponry sharp. Unlike mammals, reptiles shed and grow new teeth throughout their lives, and so can dispose of any teeth worn down. Komodos also have a venomous bite, which stuns their prey before they tear it apart with sharp teeth and claws. (Learn why komodo dragons stick close to home.)

The new research, therefore, opens up a series of questions. Does iron also exist in the teeth of other reptiles? What about ancient reptilians like dinosaurs? What other tooth adaptations exist?

“[The study] tells us that reptiles still hold a lot of surprises,” says study leader Aaron LeBlanc, a paleontologist at King’s College London. “It’s leading down a whole new avenue of research.”

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An orange-tinted mystery

LeBlanc didn’t set out to research Komodo dragons. He was interested in the gnashers of meat-eating dinosaurs. But it’s a challenging subject.

“When a dinosaur tooth has been buried underground for millions of years, it undergoes a lot of changes chemically as well as mechanically,” LeBlanc says, “so it’s really hard to get anything meaningful out of it.”

The komodo, on the other hand, is an analog to dinosaurs, which means it’s an animal still living today that shares traits—such as long, curved, jagged teeth—with extinct animals.

As LeBlanc started inspecting Komodo dragon teeth from museum specimens, he noticed a pattern: an orange tinge along the serrated edges. “I probably saw it three or four times, and completely dismissed it, thinking that this was staining from feeding,” he says; the reptiles take up iron from their meat-rich diets. As he saw more, he began to enlist help from other scientists and museum curators to inspect dragon skulls. The pattern, it turns out, was consistent across the specimens. (Learn where you can see Komodo dragons in the wild.)

By cutting up teeth and subjecting them to further chemical analyses, LeBlanc and his colleagues found that the orange on these reptile teeth was, indeed, iron. Using high-powered microscopes, the researchers could see the iron within a thin layer of the enamel. “We saw it’s a coating on top of the enamel, like icing on the top of the cake.

The serrations have the majority of the iron, which suggests that they’re reinforced. Because they’re particularly important” for shearing apart prey.

Toothy adaptations

The study authors also inspected the teeth of other monitor lizards, crocodilians—the group that includes crocodiles, gharials, caimans, and alligators—as well as some fossilized dinosaur teeth. These animals had trace amounts of iron in their teeth.

For the dinosaurs, it’s possible the fossilization process introduced the metal into their bones. More intriguing, though, is that the dinosaurs’ teeth had thick, wavy enamel, the team says.

Animals also reinforce their teeth by evolving new structures of enamel—one of the two tissues, along with dentin, that are present in all animal teeth. For instance, mammals tend to have thicker enamel than reptiles, and the enamel can form cusps on teeth to be better suited for different diets. Maybe [dinosaurs] don’t need the iron because they have different enamel. They’ve figured out another way to strengthen their teeth.

D’Amore agrees that from an evolutionary standpoint, reptiles seem to be taking on many diverse strategies with their teeth. “Komodo dragons are the beginning of understanding that.

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I would like to think of myself as a full time traveler. I have been retired since 2006 and in that time have traveled every winter for four to seven months. The months that I am "home", are often also spent on the road, hiking or kayaking. I hope to present a website that describes my travel along with my hiking and sea kayaking experiences.
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