Sign in to comment!

Menu
Home

Two Skeletons Push Primates Closer to Dinosaur Era

Two newly reported complete skeletons of primates show that this group, which includes humans, chimps and lemurs, is 10 million years older than scientists previously thought, pushing our earliest ancestors even closer to the Age of Dinosaurs.

This discovery, the most primitive known skeletons of primates, extends the primate record by a big chunk of geologic time and changes the prevailing view of how primate traits evolved.

"It's sort of a window into what the earliest primates would have looked like," said study author Jonathan Bloch of the Florida Museum of Natural History.

Nowhere to Fit In

Bloch and his colleagues studied the new fossils and some similar modern and early primate skeletons to pinpoint their location on the primate family tree.

The branches of that tree, which includes humans, chimps, gorillas, baboons and lemurs, can all be traced back to a moment 55 million years ago, when the first undisputed primates appear in the fossil record.

Dinosaurs went extinct 10 million years before that, and some paleontologists suspected that primates emerged not long after the reptile beasts disappeared, based on fossil traces of a group of small mammals called plesiadapiforms.

• Click here to visit FOXNews.com's Evolution & Paleontology Center.

Early studies labeled these animals primitive primates, but in recent years, they were reclassified as being closer to flying lemurs, small, gliding mammals native to Southeast Asia that are not actually lemurs but close relatives to primates.

"There's always been an enormous amount of debate as to what these things are," Bloch told LiveScience, referring to plesiadapiforms.

One reason for the debate was that scientists, until now, lacked a complete view of the creatures.

Like most primates other than apes and large monkeys, plesiadapiforms are rather small.

Skeletons of smaller animals erode more easily — only teeth and a few isolated bones of plesiadapiforms had been found before.

"There's only so much that you can say about teeth," Bloch said.

Expanding the Family

Bloch recently caught a lucky break when he made the rare discovery of nearly complete skeletons of two plesiadapiform species, now named Ignacius clarkforkensis and Dryomomys szalayi, embedded in limestone outside Yellowstone National Park.

By analyzing the skeletons and comparing them to more than 85 modern and extinct primate species, the researchers showed that plesiadapiforms look a lot more like primates than paleoanthropologists had imagined — and look nothing like flying lemurs, Bloch said.

The findings are detailed in the Jan. 23 issue of Proceedings of the National Academy of Sciences.

When examining the skeletons, Bloch and his colleagues looked for several telling features of primates: a bone that covers important structures in the ear, skeletons adapted for tree-living and teeth that are critical to a diet rich in fruits and plants.

"Primates tend to have really kind of mobile joints, so that they can wrap their hands and feet around branches," co-author Eric Sargis of Yale University said. "The whole skeleton of primates is really kind of re-packaged for tree living."

D. szalayi had several of these primate features. It was small, about the size of a mouse; its teeth show that it mostly ate fruits; and it had long fingers and claws perfect for climbing around in trees.

"Our analysis shows that they're the closest relatives of modern primates, and therefore, we've kind of brought them back into the order Primates," Sargis said.

Because these archaic primates exist in the fossil record long before the appearance of the first true primates 55 million years ago, they are most primitive primates known.

A New Picture Forms

Primates must have acquired their traits gradually, because plesiadapiforms have some, but not all, of the characteristics of later primates, Bloch and Sargis said.

"In the past, people had hypothesized that all of these kinds of primate features evolved as a single complex of features at one time, whereas what we're finding is throughout those first 10 million years of primate evolution, these features were evolving piecemeal, kind of one-by-one, accruing through time," Sargis said.

Bloch and Sargis's skeletal analysis shows that flying lemurs and another modern, non-primate mammal, the tree shrew, are primates' closest living relatives.

DNA studies of all three types of mammals — primates, flying lemurs, and tree shrews — confirm Bloch and Sargis's finding.

"So all three of those groups," Sargis said, "you can trace back to a single common ancestor."

Copyright © 2006 Imaginova Corp. All Rights Reserved. This material may not be published, broadcast, rewritten or redistributed.