Were pliable heads an adaptation to walking upright?
New research relates hominin brain growth to walking on two feet.
This image shows three dimensional scans of the Taung Child skull. New research links the growth of hominin brains to learning to walk upright.
M. Ponce de León and Ch. Zollikofer, University of Zurich
A new analysis of an old human ancestor fossil indicates that human brains started growing 2.5 million years ago, about the time humans started walking upright.
An unfused seam on the fossil's head indicates the skull was still pliable for several years after birth, giving the brain time to grow. An imprint of the brain on the inside of the skull also gave researchers a good view of the developing human brain.
"These findings are significant because they provide a highly plausible explanation as to why the hominin brain might grow larger and more complex," study researcher Dean Falk, of Florida State University, said in a statement. When humans started walking upright, it put pressure on infant skulls to stay flexible, allowing them to continue to grow for several years, the researchers suggest.
Small bones
Belonging to a 3- to 4-year-old Australopithecus africanus, nicknamed "Taung Child," the fossil skull was discovered in 1924 and dates back to about 2.5 million years ago. The specimen was initially discovered in a lime mine in South Africa, and was the first specimen of this species of hominin.
The researchers used three-dimensional scans to analyze the skull, which includes most of the face, jaw and teeth, as well as a natural internal cast of the braincase; they also compared their results with other hominid skulls, including those of chimpanzees and bonobos.
Such scans allowed the researchers to determine that the joints between the child's skull plates (called the metopic suture) hadn't fully fused, a uniquely human trait.
Walking upright
These brain joints close quickly after birth in monkeys and other apes, the researchers said, but in humans, this fusion happens much later. This flexibility in the skull may have existed to help with the birthing, since passing an infant with a large head though the birth canal can be tricky, especially after the hips were reconfigured for bipedalism.
The flexibility until later in life would have also let the prefrontal cortex, a brain area crucial for advanced cognitive capabilities, expand and grow over time. The researchers could see from the imprint of the brain on the inside of the skull that these brain areas had started expanding and changing.
This flexible feature "probably occurred in conjunction with refining the ability to walk on two legs," Falk said. "The ability to walk upright caused an obstetric dilemma. Childbirth became more difficult because the shape of the birth canal became constricted while the size of the brain increased. The persistent metopic suture contributes to an evolutionary solution to this dilemma."
The study was published today (May 7) in the journal Proceedings of the National Academy of Sciences.
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