Skip to comments.Dental Detectives Reveal Diet If Ancient Human Ancestors
Posted on 11/09/2006 4:59:40 PM PST by blam
Dental Detectives Reveal Diet of Ancient Human Ancestors
for National Geographic News
November 9, 2006
Paranthropus robustus, a dead-end branch of the early human family tree, has been described as a "chewing machine" that was mostly jaws and not much brains.
While the label may still apply, pioneering dental detective work has revealed unexpected news about the species' dietary variety.
Using lasers to vaporize tiny particles of tooth enamel, researchers in the United States and Great Britain analyzed the chemical makeup of 1.8-million-year-old fossil teeth from four individuals unearthed in the Swartkrans cave site in South Africa.
Different types of edible plants leave unique chemical signatures in living tissue, including teeth.
Based on the types of carbon isotopes preserved in the P. robustus fossils, the team concludes that the diminutive primates had a surprisingly varied and flexible menu.
Their seasonally adapted diet may have included fruits, seeds, roots, tubers, and even insects.
The findings contradict the long-held theory that P. robustus was a dietary specialist that chomped solely on low-quality plants, the researchers report in tomorrow's issue of the journal Science.
Scientists had long cited this theory to explain why the bipedal primate went extinct 1.5 to 1 million years ago, arguing that the human ancestor couldn't cope with food scarcity in Africa's changing environment.
But the new study suggests a different story.
Standing just four feet (about a meter) tall and weighing about a hundred pounds (45 kilograms), P. robustus appeared in East Africa about 2.5 million years ago. The species had a brain that was slightly larger than a chimp's and about 60 percent smaller than a modern human's.
P. robustus is a descendent of Australopithecus afarensis, a group first chronicled by the discovery of the famous "Lucy" fossil in Ethiopia.
Lucy's kin also gave rise to the highly adaptable, tool-using genus Homo, which includes Homo sapiens, or modern humans.
Matt Sponheimer, an anthropologist at the University of Colorado at Boulder who led the study, says the very different fates of "Lucy's children" have always puzzled scientists.
"There's this question about this tale of two children, as it were, one of which flourishes [and] the other which doesn't," Sponheimer said. "And the question is, Why?
"What I think we've done in this study is show that traditional explanations as to why [P. robustus went extinct] are probably, at the very least, dramatically oversimplified and possibly just outright incorrect."
Sponheimer and his colleagues suggest that other biological, social, or cultural factors may explain the ultimate disappearance of P. robustus.
As for the success of the Homo species who lived at the same time as P. robustus, the paeloanthropologists says that any number of factors may explain why our ancestor survived and P. robustus did not.
"It would be very interesting if it turned out that the main difference was that we just were able to procreate more quicklywe were the rabbits to [P. robustus's] apes," Sponheimer said.
The new findings are also significant because they showcase the powerful new dental investigative technique known as laser ablation.
The method was advanced by study co-authors Benjamin Passey and Thure Cerling at the University of Utah in Salt Lake City.
Sponheimer says the innovation enables scientists to uncover a trove of previously untapped data that lie preserved in the fossil teeth of early humans and other ancient and modern animals.
By studying the growth rings and chemical composition of teeth, for example, researchers can reveal dietary habits, detect changes in climate, and possibly track migrations.
Stanley H. Ambrose, an anthropologist at the University of Illinois, Urbana-Champaign, said the study's findings are "very exciting."
He says the new dental technique opens new possibilities to learn not only what early humans and ancient animals ate but also how they interacted within their communities and how their environments changed over time.
"It will be a great tool because it will allow a fairly high-resolution monitoring" of dietary and seasonal climate changes within ancient animal communities, he said.
In a related perspective article in Science, Ambrose says the dental detective technique could also explore whether environmental changes helped drive the evolution of modern humans.
And the democrats pushing evolution has begun... :^)
Cue the big ass plate of ribs that makes the Flintstone's car falls over.
"Please, please, let them say meat. Red meat. Lots of it."
Oh well, I guess they're just wrong about their conclusions. The had faulty equipment, contaminated reagents, a power surge, corrupt software, something.
a dead-end branch of the early human family tree, has been described as a "chewing machine" that was mostly jaws and not much brains.
describes my brother
Okay, I blew it. I read so many articles that I oft times forget where I've read them...unfortunately, this will occur occassionally, sorry.
No apology...please. Different stories. No problema, hombre.
Your brother's a 'rat?
Your brother's a 'rat?
How did you know?
You can smell 'em a mile away.
Early human relative ate prehistoric smorgasbord
Reuters | Thu Nov 9, 2006 | Will Dunham
Posted on 11/09/2006 7:22:34 PM EST by Pharmboy
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