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3.8 million-year-old fossil ‘game changer’ in understanding of human evolution

Researchers have discovered what they say is a remarkably complete cranium of an early human ancestor.
Researchers have discovered what they say is a remarkably complete cranium of an early human ancestor. Researchers have discovered what they say is a remarkably complete cranium of an early human ancestor.

The discovery of a 3.8 million-year-old skull is a “game changer” in the understanding of human evolution, scientists say.

Researchers have discovered what they say is a remarkably complete cranium of an early human ancestor.

It was found at the Woranso-Mille palaeontological site, located in the Afar region of Ethiopia in February 2016.

The fossil, referred to as MRD, represents a time interval between 4.1 and 3.6 million years ago when early human ancestor fossils are extremely rare, especially outside the Woranso-Mille area.

It sheds new light on what Australopithecus anamensis, a species widely accepted to have been the ancestor of Australopithecus afarensis, represented by the famous Lucy fossil – looked like.

Cranium Specimen (Dale Omori/Cleveland Museum of Natural History
Cranium Specimen (Dale Omori/Cleveland Museum of Natural History Cranium Specimen (Dale Omori/Cleveland Museum of Natural History)

MRD also shows that Lucy’s species and its hypothesised ancestor, A. anamensis, co-existed for around 100,000 years, challenging previous assumptions of a linear transition between these two early human ancestors.

Cleveland Museum of Natural History curator and Case Western Reserve University adjunct professor, Dr Yohannes Haile-Selassie, said:  “This is a game changer in our understanding of human evolution during the Pliocene (epoch).”

The earliest members of the hominin genus Australopithecus have remained poorly understood, because of the near absence of cranial remains older than 3.5 million years.

Dr Haile-Selassie and colleagues assign the cranium to A. anamensis on the basis of its teeth and jaw.

It is likely to be an adult male despite its small size.

However, scientists say the primitive cranial morphology links this fossil to even more ancient hominins, such as Sahelanthropus and Ardipithecus, and casts doubt on previous assumptions about a direct link to the younger Australopithecus afarensis.

Facial reconstruction by John Gurche (Matt Crow/Cleveland Museum of Natural History)
Facial reconstruction by John Gurche (Matt Crow/Cleveland Museum of Natural History) Facial reconstruction by John Gurche (Matt Crow/Cleveland Museum of Natural History) (CMNH/MattCrow)

Co-author Dr Stephanie Melillo of the Max Planck Institute for Evolutionary Anthropology in Germany, said: “A. anamensis was already a species that we knew quite a bit about, but this is the first cranium of the species ever discovered.

“It is good to finally be able to put a face to the name.”

She added: “We used to think that A. anamensis gradually turned into A. afarensis over time.

“We still think that these two species had an ancestor-descendent relationship, but this new discovery suggests that the two species were actually living together in the Afar for quite some time.

“It changes our understanding of the evolutionary process and brings up new questions – were these animals competing for food or space?”

Dr Haile-Selassie said that one of the reasons the finding was so significant is because this is the “first specimen that gave us a glimpse” of what the face of the species looked like.

He added that, while the idea of Australopithecus afarensis being the ancestor of Homo had not been falsified yet, this finding suggests there could be other answers.

A separate paper also published in the Nature journal, describes the age and context of the cranium, and suggests the hominin lived in predominantly dry shrubland, with varying proportions of grassland, wetland and riverside forest.

Naomi Levin, a co-author on the study from University of Michigan, said: “MRD lived near a large lake in a region that was dry.

“We’re eager to conduct more work in these deposits to understand the environment of the MRD specimen, the relationship to climate change and how it affected human evolution, if at all.”