DNA from tooth in Florida man's foot solves 25-year-old shark bite mystery
When Jeff Weakley tweezed open a blister-like bulge on his foot, he was not expecting to find a piece of tooth from a shark that bit him while he was surfing off Flagler Beach in 1994.
He also did not imagine that a DNA test of the tooth, conducted by scientists at the Florida Museum of Natural History, would reveal the kind of shark that had nabbed his foot nearly a quarter century ago: a blacktip.
Weakley was planning to turn the small sliver of tooth into a pendant when he read about how researchers in the Florida Program for Shark Research identified the shark species responsible for a bite off New York by analyzing DNA from a tooth retrieved from the victim's leg.
He decided to offer the tooth to science.
"I was very excited to determine the identity of the shark because I'd always been curious," said Weakley, editor of Florida Sportsman magazine. "I was also a little bit hesitant to send the tooth in because for a minute I thought they would come back and tell me I'd been bitten by a mackerel or a houndfish—something really humiliating."
But Weakley's bite was the real deal, caused by Carcharhinus limbatus, a shark species commonly involved in bites in Florida.
The result came as no surprise to Weakley, who had always suspected a blacktip. But to Gavin Naylor, director of the shark research program, the fact that any viable DNA was left in the tooth fragment to analyze—after 24 years in Weakley's foot where it would have been attacked by his immune system—was a shocker.
"I had put our odds of success at slim to none," he said.
His doubts were shared by his laboratory manager Lei Yang who said he thought "it was kind of weird" to test the tooth, but was also intrigued to try.
"It was a mystery waiting for us to uncover," he said.
Yang cleaned the tooth of contaminants, removed part of the enamel and scraped pulp tissue from the tooth's cavity. He extracted DNA from the tissue, purified it, broke it into small pieces and then added molecular "bookends" on either side of each piece. These bookends made a genomic "library" out of the DNA, which Yang could then search for the sequences he needed to identify the shark. He compared the target sequences against two databases of shark and ray genetic information to determine Weakley had been bitten by a blacktip.
About 70 percent of shark bites are caused by unidentified species, and more precise data on which species are involved could improve bite mitigation strategies, Yang said. He also understood Weakley's personal curiosity.
"If I was bitten by a shark, I would want to know what it was," Yang said.
Weakley, who was bitten while surfing at a college beach mixer, said he was back in the water—foot encased in a waterproof bandage and bootie—within a couple of weeks. Twenty-five years later, he surfs and fishes weekly and regards the sharks he frequently sees in the same light as dogs that menace him when he jogs.
"I've been lucky to have not been bitten by a dog, but I would regard that interaction I had with that shark as being no different or more destructive than a dog bite," he said. "I certainly don't have a hatred of sharks or any feeling of vindictiveness toward them. They're part of our natural world."
But he doesn't wax romantic about them either.
"I've consumed blacktip shark and thought it was delicious."
More information: Lei Yang et al, DNA from Tooth Embedded in Man's Foot Resolves Quarter-Century-Old Shark Bite Mystery, Wilderness & Environmental Medicine (2019). DOI: 10.1016/j.wem.2019.04.008
Provided by Florida Museum of Natural History