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COLLEGE STATION, Texas,
April 11, 2013 /PRNewswire-USNewswire/ -- Close examination of the lower jawbone, teeth and skeleton of the hominid species
Australopithecus sediba proves conclusively that it is uniquely different from a closely related species,
Australopithecus africanus, according to a series of papers authored by a scientific team that includes several
Texas A&M University researchers.
Darryl de Ruiter, associate professor in the Department of Anthropology, is the lead author or co-author in a series of six papers detailing the findings in the current issue of
Science magazine. Also included in the authorship are associate professor
Thom DeWitt of the Department of Wildlife and Fisheries Sciences, as well as
Keely Carlson, a current doctoral student, and
Juliet Brophy, a recent doctoral graduate in the Department of Anthropology at
In 2010 the team, comprised of researchers from
the United States,
Australia, discovered skeletal remains in a South African cave located about 30 miles from
Johannesburg and dated to about 1.98 million years ago. The team named the new species
Australopithecus sediba and showed that it displayed a mosaic of both human-like and ape-like characteristics shared with other forms of
Australopithecus and modern-day humans.
However, some researchers contended the new skeletons belonged to a closely related species,
Australopithecusafricanus, and therefore did not represent a new species.
"We looked at the jawbone area and found definitive proof that the two are not the same species," de Ruiter says of the findings.
Australopithecussediba is unique in size, shape and pattern of growth, though it does share features with older australopiths, as well as later specimens referred to
Homoerectus. It represents a transitional form between australopiths and
Homo, the genus to which we humans belong, though it looks more like
Homo than any other australopith ever found."
Australopiths belong to
Australopithecus, a genus of hominins now extinct. Ape-like in structure and lifeways, yet walking bipedally similar to modern humans, they are believed to have played a significant role in human evolution, and it is generally held among anthropologists that some form of
Australopithecus eventually evolved into
Homo. They are just not sure which form of
Australopithecus, which is why
Australopithecussediba, with its unique arrangement of
Homo-like features, is so intriguing.
"We examined the remains and found several distinct individuals – possibly representing a family group. They all seemed to have died suddenly in the same event about 1.98 million years ago, but the remains are in surprisingly good shape."