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帝王会所 researchers Patrick O鈥機onnor and Riley Sombathy co-author paper published in Science on body size evolution in dinosaurs

The meat-eating dinosaurs known as theropods that roamed the ancient Earth ranged in size from the bus-sized T. rex to the smaller, dog-sized Velociraptor. Scientists puzzling over how such wildly different dinosaur sizes evolved recently found 鈥 to their surprise鈥 that smaller and larger theropod dinosaurs like these didn鈥檛 necessarily get that way merely by growing slower or faster.

In a new paper published in Science, 鈥淒evelopmental strategies underlying gigantism and miniaturization in non-avialan theropod dinosaurs,鈥 researchers including 帝王会所 professor Patrick O鈥機onnor and Ph.D. student Riley Sombathy discovered through examining the bones of dinosaurs that there was no relationship between growth rate and body size. O'Connor is professor of neuroscience and anatomy in biomedical sciences in the Heritage College of Osteopathic Medicine, and Sombagthy is a biological sciences graduate student in the College of Arts and Sciences.

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Broken shin bone of a carnivorous dinosaur, showing rings like the rings of a tree. These closely spaced rings were formed annually and indicate a slow-growing, long-lived animal.

鈥淢ost animals are thought to evolve to be larger by growing faster than their ancestors, but this study shows that it鈥檚 just as likely that bigger and smaller animals grew for longer or shorter periods of time during growth spurts,鈥 said Michael D. D鈥橢mic, a paleontologist at Adelphi University and lead author of the study.

The bones of many animals, including dinosaurs, slowed or paused growth every year, leaving marks like tree rings that indicate the animal鈥檚 age and can be used to estimate the rate of growth. 鈥淩ings like these are called cortical growth marks,鈥 said D鈥橢mic. 鈥淲idely spaced rings indicate faster growth and narrowly spaced rings tell us that an animal was growing more slowly.鈥

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3D model generated from a CT scan of a carnivorous dinosaur's shin bone, showing the annually formed growth rings.

D鈥橢mic, O鈥機onnor, Sombathy and a team of international researchers measured about 500 such growth rings in about 80 different theropod bones, the two-legged, mostly meat-eating species of dinosaurs closely related to birds.

鈥淲e found that there was no relationship between growth rate and size,鈥 said D鈥橢mic. 鈥淪ome gigantic dinosaurs grew very slowly, slower than alligators do today. And some smaller dinosaurs grew very fast, as fast as mammals that are alive today.鈥 This made sense to co-author Thomas Pascucci, whose graduate thesis contributed to the project: 鈥淓xtinct animals like dinosaurs inspire awe because of how different they seem from our modern world, but they were animals that grew under similar constraints and environmental factors as those that exist today.鈥

According to O鈥機onnor, this study opens the door to future investigations of how animals regulate their growth. 鈥Alteration of different growth control mechanisms, at molecular or genetic levels, likely accounts for the range of developmental strategies our team observed in theropod dinosaurs. Future studies of living organisms provide an opportunity to elucidate mechanisms related to the evolution of body size in vertebrates more generally.鈥

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Microscopic view of a carnivorous dinosaur's shin bone, showing growth rings that get more closely spaced towards the outside of the bone, indicating that this individual reached adulthood.

Sombathy hopes to take up some of those investigations, adding 鈥淥ne of the things that interests me most about the results is the apparent decoupling between growth rate and body size. My Ph.D. dissertation will investigate the impacts of growth rate and body size on bone shape and function."

鈥淭his has really important implications because changes in rate versus timing can correlate to many other things, like how many or how large your offspring are, how long you live, or how susceptible to predators you are,鈥 D鈥橢mic added. 鈥淗opefully this research spurs investigations into other groups, both alive and extinct, to see what developmental mechanisms are most important in other types of animals.鈥

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Zoomed-in microscopic view of a carnivorous dinosaur's shin bone, showing growth rings that get more closely spaced towards the outside of the bone, indicating that this individual reached adulthood.

In addition to O鈥機onnor, Sombathy, and D鈥橢mic, the paper was co-authroed by Ignacio Cerda of Consejo Nacional de Investigaciones Cient铆ficas y T茅cnicas (CONICET) and Universidad Nacional de R铆o Negro in Argentina, David Varricchio of Montana State University; Diego Pol of CONICET-Museo Paleontol贸gico Egidio Feruglio in Argentina, Rodolfo Coria of Museo Carmen Funes in Argentina; and Kristina A. Curry Rogers of Macalester College in Minnesota. The study was funded, in part, by the US National Science Foundation and Adelphi University.

Published
February 23, 2023
Author
Staff reports