U. CHICAGO (US) — The discovery of a lanky, meat-eating dinosaur that hunted prey in South America 230 million years ago offers a snapshot of the dawn of the dinosaur era.
Sporting a long neck and tail and weighing only 10 to 15 pounds, the new dinosaur has been named Eodromaeus, the “dawn runner.” With stabbing canine teeth and sharp-clawed grasping hands, Eodromaeus is the pint-sized precursor to later meat-eaters called theropods, and eventually to birds.
“It really is the earliest look we have at the long line of meat eaters that would ultimately culminate in Tyrannosaurus rex near the end of the dinosaur era,” says Paul Sereno, University of Chicago paleontologist and National Geographic Explorer-in-Residence. “Who could foretell what evolution had in store for the descendants of this pint-sized, fleet-footed predator?”
Sereno and his colleagues describe a near-complete skeleton of the new species, based on the rare discovery of two individuals found side-by-side, in the Jan. 14 issue of the journal Science. The paper focuses on the early age of dinosaur life, a period that has garnered less attention than the dinosaurs’ demise. “It’s more complex than some had supposed,” Sereno says.
Set in picturesque foothills of the Andes, the site of discovery is known as the “Valley of the Moon,” says the report’s lead author, Ricardo Martinez of Argentina’s National University of San Juan. For dinosaur paleontologists, it is like no other.
“Two generations of field work have generated the single best view we have of the birth of the dinosaurs,” Martinez says. “With a hike across the valley, you literally walk over the graveyard of the earliest dinosaurs to a time when they ultimately dominate.”
The area was once a rift valley in the southwest corner of the supercontinent Pangaea. Sediments covered skeletons over a period of five million years, eventually accumulating a thickness of more than 2,000 feet (700 meters).
Volcanoes associated with the nascent Andes Mountains occasionally spewed volcanic ash into the valley, allowing the team to use radioactive elements in the ash layers to determine the age of the sediments.
“Radioisotopes—our clocks in the rocks—not only placed the new species in time, about 230 million years ago, but also gave us perspective on the development of this key valley,” says Paul Renne, director of the Berkeley Geochronology Center in California. “About five million years of time are represented in these layers, from one end to the other.”
In the oldest rocks Eodromaeus lived alongside Eoraptor, a similar-sized, plant-eating dinosaur that Sereno and colleagues discovered in the valley in 1991. Eoraptor’s descendants would eventually include the giant, long-necked sauropods.
“We’re looking at a snapshot of early dinosaur life. Their storied evolutionary careers are just unfolding, but at this point they’re actually quite similar,” Sereno says.
Vexing scientific questions at the dawn of the dinosaur era include what gave them an edge over competitors, and how quickly did they rise to dominance? In Eodromaeus’ day, other kinds of reptiles outnumbered dinosaurs, such as squat lizard-like rhynchosaurs and mammal-like reptiles.
The authors logged thousands of fossils unearthed in the valley to find, as Martinez remarks, that “dinosaurs took their sweet time to dominate the scene.” Their competitors dropped out sequentially over several million years, not at a single horizon in the valley.
In the red cliffs on the far side of the valley, larger plant- and meat-eating dinosaurs had evolved many times the size of Eoraptor and Eodromaeus, but it would be even later when they dominated all land habitats in the succeeding Jurassic and Cretaceous periods.
“The story from this valley suggests that there was no single advantage or lucky break for dinosaurs but rather a long period of evolutionary experimentation in the shadow of other groups,” Sereno says. Other researchers on the paper tracked climate change and other conditions across the layers of the valley.
“The dawn of the age of dinosaurs,” Martinez says, “is coming into focus.”
The work was funded by the Whitten-Newman Foundation, Island Fund of the New York Community Trust, Earthwatch Institute, Consejo Nacional de Investigaciones Científicas y Técnicas, Packard Foundation, Gorden Getty Foundation, National Science Foundation, and the National Geographic Society.
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