By Brooks Hays, UPI
An ancient ape pelvis recovered in Hungary suggests bipedalism has deeper evolutionary roots than previously thought.
The 10-million-year-old fossilized pelvis bone belongs to Rudapithecus hungaricus,
a large-bodied ape that lived in Europe during the late Miocene.
Previous analysis of the species' jaws and limbs suggest the ape was a
relative of modern African apes and humans.
Pelvic bones are rarely preserved, but the bones can offer important
insights into a species' locomotion and posture. The newly recovered
pelvis bound, found in Rudabánya, Hungary, by a team of anthropologists,
suggests Rudapithecus had the ability to walk on two legs.
"Rudapithecus was pretty ape-like and probably moved among
branches like apes do now -- holding its body upright and climbing with
its arms," Carol Ward, a professor of pathology and anatomical sciences
at the University of Missouri School of Medicine, said in a news
release. "However, it would have differed from modern great apes by
having a more flexible lower back, which would mean when Rudapithecus came down to the ground, it might have had the ability to stand upright more like humans do."
Ward is the lead author of a new paper detailing the evolutionary
implications of the rare ape-like pelvis bone, published this week in the Journal of Human Evolution.
"This evidence supports the idea that rather than asking why human
ancestors stood up from all fours, perhaps we should be asking why our
ancestors never dropped down on all fours in the first place," Ward
said.
With a long pelvis and short lower back, Africa's modern apes have no
choice but to remain on all fours. Humans are able to stand and walk on
two legs thanks to a longer, more flexible lower back. According to
Ward, the evolutionary gap between the pelvis and lower back of humans
and African apes is greater than the gap between the anatomy of humans
and Rudapithecus.
"We were able to determine that Rudapithecus would have had a
more flexible torso than today's African apes because it was much
smaller -- only about the size of a medium dog," Ward said. "This is
significant because our finding supports the idea suggested by other
evidence that human ancestors might not have been built quite like
modern African apes."
In future studies, Ward and her colleagues hope to conduct a 3D analysis of other Rudapithecus bones gain a fuller picture of how the ape moved.
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