Photo: Sebastian Voortman |
Just in time for summer, the megalodonâthe ancient, city bus-sized shark known as the âMegatoothââhas reared its ravenous snout.
While the oceans are now safe from the Megatooth, which went extinct an estimated 3.5 million years ago, Otodus megalodon has been revealed by new research to have occupied a higher position on the food chainâknown as its trophic levelâthan any other ocean predator, living or extinct.
That puts Megatooth, and probably some of its ancestors, at the top step of the prehistoric food chain when it stalked the seas during the Cenozoic era, which began about 66 million years ago and extended to present day, according to findings published in the journal Science Advances by a team that included Boston College Assistant Professor of Earth and Environmental Science Xingchen (Tony) Wang.
âIt's more than calling Megatooth an apex predator,â Wang said. âAn apex predator today might be eating smaller fish. Our study suggests that these megalodon were probably pretty picky about their foodâthey ate mainly other predators or even their own kind.â
The findings drew from a new technique that Wang developed while working on his doctorate at Princeton University. The technique determines trophic level based on nitrogen isotope ratios of trace organic molecules (mostly proteins) in the enamel of shark teeth as large as a manâs hand.
Those ancient proteins preserved in fossil teeth allowed researchers to determine that marine food chains during megatooth sharksâ time were about one to two steps longer than they are today. In other words, Megatooth ate not only predators, but the beasts preying on those seemingly dominant species.
Wang started this project as a young graduate student working in the lab of Princeton Professor Daniel Sigman.
âWe had developed a laboratory technique that could analyze the nitrogen isotopic composition of various kind of fossil samples,â Wang said. âThen I was looking for some fossil materials to analyze. There was a Shark Research Institute near Princeton University. One day I visited them and they gave me a box of shark teeth samples from the Caribbean Sea. Thatâs how this project started.â
Wang turned his attention to other projects and passed the early work to another graduate student, Emma Kast. Now a post-doctoral researcher at the University of Cambridge in the U.K., Kast advanced the work as part of her doctoral dissertation at Princeton and was the lead author of the Science Advances report .
Kast noted the enduring presence of sharks across the span of time, existing long before the dinosaursâfor more than 400 million yearsâand continuing to evolve into the megatooth uber-predator well after the dinosaurs went extinct.
While many iconic big-bodied prehistoric creatures of the sea and land quietly sifted feedstocks from the ocean depths or nibbled on leafy treetops, the Megalodon was a meat-eating brute. And a survivor.
âWeâre used to thinking of the largest speciesâblue whales, whale sharks, even elephants and diplodocusesâas filter feeders or herbivores, not predators,âĚýKast said in a news release. âBut Megalodon and the other megatooth sharks were genuinely enormous carnivores that ate other predators, and Meg went extinct only a few million years ago.â
They say that the length of Megalodon has been estimated at approximately 50 feetâdwarfing modern great white sharks that grow to a maximum length of about 15 feet. While they were gone from the sea 3.5 million years ago, they left behind clues in an abundant supply of fossilized teeth divers have culled from the sea floor around the world.
Scientists first described fossil shark teeth the size of human hands about 180 years ago, according to previous studies. But paleontologists were challenged to identify Megatoothâs trophic level. Methods used in modern ecosystems could not be applied to extinct species.
Wang, Kast,and the team report they determined that measurements of nitrogen isotope levels within the enamel of modern shark teeth correspond with the nitrogen isotope levels in their dentin collagen, which is commonly used to determine trophic position for modern sharks. Animals at higher trophic levels have higher ratios of nitrogen-15 to nitrogen-14 since more nitrogen-15 is retained in their body during metabolism, according to the report.
When the researchers applied their new technique to fossilized megalodon teeth, they found that Megatooth had significantly higher nitrogen-15 levels than modern white sharks, polar bears, and orcas. However, these sharks did show a wide range of nitrogen-15 levels, indicating that not every large individual fed at the top of the food chain.
Since shark teeth are so abundant and are preserved so well, the nitrogen signatures in enamel provide a way to measure status in the food web, whether the tooth fell from a sharkâs mouth millions of years ago or yesterday. There is still so much to learn about the marine food webs using shark teeth.
âWe knew that megatooth sharks went extinct long before human civilization,â Wang said. âBut human activities have been causing extinction of many marine species since the industrial revolution, so called âthe sixth mass extinctionâ.
âWhen holding one of these massive teeth in my hands, I keep wondering: if they were to exist in todayâs ocean, would they survive the âsixth mass extinctionâ?â Wang said.
Since Wangâs arrival at 51˛čšÝ in early 2020, he has set up a cutting-edge , which now includes five doctoral students and one postdoctoral scholar. His lab continues to use fossil materials, including teeth, to study ocean chemistry and biology.
ĚýâWe are one of a handful of labs in the world that could analyze the nitrogen isotopic composition of fossil materials, including corals, shells, and teeth.â Wang said. âOur students and postdoc are currently working on important questions ranging from climate change and its impacts to ocean pollution and marine food webs. Stay tuned for their findings!â
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Ed Hayward | University Communications | July 2022
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