Most Expensive Dinosaur Fossil Ever Could Reveal Stegosaurus Secrets
December 19, 20243 min readMost Expensive Dinosaur Fossil Ever Could Reveal Stegosaurus SecretsThe huge Stegosaurus fossil Apex, bought at auction for $44.6 million, has debuted on loan at the American Museum of Natural HistoryBy Zane Wolf edited by Sarah Lewin FrasierA new stegosaurus fossil named Apex which was bought by billionaire Kenneth C. Griffin is unveiled while it is on loan for the next four years to the American Museum of Natural History, December 5, 2024 in New York, NY. Sipa USA/Alamy Live NewsMy first visit to the American Museum of Natural History (AMNH) involved a flurry of media cameras, a sea of press badges and no small amount of intrigue. We had all been invited to witness the unveiling of something. The museum made it clear we could expect to see a spectacular specimen that would rival the ranks of storied favorites such as Sue, the spectacular and beloved Tyrannosaurus rex specimen at Chicagos Field Museum.Suffice it to say the AMNH delivered. Following a countdown from a bevy of schoolchildren at the front of the crowd, curtains were drawn to reveal Apex, one of the most complete and largest Stegosaurus fossils yet discovered. The fossil was bought for a record-breaking $44.6 million last Julyits the most expensive ever sold at auction, according to APand is currently on a long-term loan to the museum.The Apex Stegosaurus on view in the American Museum of Natural Historys Richard Gilder Center for Science, Education, and Innovation.Alvaro Keding & Daniel Kim/ AMNHOn supporting science journalismIf you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.Apex (named, aptly, for its size) is 11.5 feet tall and 27 feet long, and it died around 150 million years agothe peak era for Stegosaurus in terms of species diversity and population density. A considerable amountroughly 80 percentof Apexs skeleton was recovered, and compared with other Stegosaurus specimens with similar amounts of skeletal material, this specimens fossilization process preserved its three-dimensional characteristics exceptionally well. The important thing for me is those bones come from all of the major regions of the skeleton, so were not missing important parts of this animal, says Roger Benson, Macaulay Curator of Paleontology and curator-in-charge of fossil amphibians, reptiles, and birds and fossil plants at the AMNH. Apexs completeness and size could give scientists a crucial opportunity to answer some outstanding basic questions.For instance, researchers still arent sure what the massive, iconic back plates of Stegosaurus were good for, explains Paul Barrett, a paleontologist and dinosaur specialist at the Natural History Museum in London. Were they used for thermoregulation or defense? And if it was the latter, how effective were they at fending off attacks? With a lot of well-preserved skeleton to work with, scientists are bound to find more clues about functionality.Thanks to Apexs completeness, it can be used to craft virtual models to study how this animal moved in comparison to smaller specimens, showing how locomotion gaits might have changed as the animals matured. Apex adds another really important point of comparison for all the other Stegosaurus remains that we already know about, and its particularly important in that its near the very top end of the size range, Barrett explains.The Apex Stegosaurus on view in the American Museum of Natural Historys Richard Gilder Center for Science, Education, and Innovation.Alvaro Keding & Daniel Kim/ AMNHApexs large size also suggests this dinosaur specimen died when it was relatively mature, which would be a rarity. Dinosaurs were living a kind of rock-star lifestyle of living fast and dying young, Barrett says, and the dearth of fully adult specimens creates a large gap in our knowledge about how and when these animals reached full maturity.Benson and Barrett describe two ways to determine biological age in a fossil. First, vertebrates are often born with more bones than they have when they die because some eventually fuse together. Human craniums are a prime example, consisting of five separate major bones that fuse into one structure after birth. In Apex, Benson explains, every single vertebra is fused, and thats one of the really clear signs of older age.Second, like tree rings, patterns of bone growth can indicate periods of fast and slow growth as well as overall age. By looking across bone samples from small, younger specimens and larger, adult specimens like Apex, its possible to construct a model of when and how rapidly Stegosaurus grew during different periods of its life. This can yield valuable information about its overall metabolism and the duration of various life stages.