Dinosaurs Evolved Rapidly After First Relatives Appeared

Shown is an artist's impression of animals that lived 235 million years ago in northwestern Argentina.


View Related Gallery »

Shown is an artist's impression of animals that lived 235 million years ago in northwestern Argentina. Fossils found in this region include ancient mammal relatives Dinodontosaurus (left background) and early dinosaur relatives Lewisuchus (right background) and Lagerpeton (right foreground).

Victor Leshyk

Gallery

Dinosaur Claws Evolved from Basic to Badass: Photos

Quercus Publishing, London

Wikimedia Commons

Nobu Tamura, Wikimedia Commons

Artwork by Jorge Gonzalez

William Stout

Mick Ellison, American Museum of Natural History

Jorge Gonzales, Utah Museum of Natural History

AMNH/J. Brougham

Stephan Lautenschlager, University of Bristol

Stephan Lautenschlager, University of Bristol

Related Links

The first dinosaur relatives may have emerged up to 10 million years later than previously thought, then evolved rapidly into the animals that would take over the world, a new study suggests.

A huge triceratops skeleton was found in Wyoming! But researchers say it's not a triceratops -- that dinosaur never existed.

DCI

Researchers have used a relatively new dating technique to accurately determine the age of fossils of early dinosaur relatives - known as dinosauromorphs - found in a large collection in Argentina.

"If you met an early dinosauromorph in a dark alley, you'd think it was a dinosaur," said lead author and palaeontologist Dr Randall Irmis, curator of palaeontology at the Natural History Museum of Utah.

The Argentinian Chanares Formation includes fossils of dinosauromorphs such as the 70-centimetre-long Lagerpeton chanarensis that ran on its hind legs, and the even smaller Marasuchus dinosauromorph.

"Not only is this a classic fossil assemblage that's well known the world over for these early dinosaur relatives that are found in it, but it's also got these layers that are mixed with volcanic ash that we can date," Dr Irmis said.

By analysing the ratio of uranium to lead in zircon crystals in this volcanic ash, Dr Irmis and an international team of colleagues were able to precisely date when the zircon was formed and thereby establish an upper limit for the age of the fossils preserved within the ash-containing sediment.

"What we found was that this fossil layer was a lot younger geologically than we thought," Dr Irmis said.

"People previously thought it was somewhere between 240-245 million years old and we showed that it was about 235 million years old," said Dr Irmis, also an associate professor in the department of geology and geophysics at the University of Utah.

This places these early dinosauromorphs somewhere in the late Triassic period - much closer to when dinosaurs first appeared in the fossil record around 231 million years ago.