For much of the past century, fossils from East Africa have shaped our understanding of ape evolution. Now, a jawbone found in the Egyptian desert adds a new dimension to that story.
A team from Mansoura University and the University of Southern California has described a new species, Masripithecus moghraensis, in a study that appeared in the journal Science. The fossil of a lower jaw found at the Wadi Moghra site in northern Egypt, the researchers say, is the first clear evidence of an ape fossil in North Africa. Dating to 17 to 18 million years ago, it predates the known dispersal of early apes into Europe and Asia by at least a million years. This may indicate that early ape evolution extended further north than previously thought.
“We spent five years searching for this kind of fossil because, when we look closely at the early ape family tree, it becomes clear that something is missing — and North Africa holds that missing piece,” said Hesham Sallam, paleontologist at Mansoura University and senior author of the study.
A Jaw That Changes the Map
The fossil is of a lower jaw with several distinctive features. Masripithecus had large canine and premolar teeth, as well as molars with rounded, textured surfaces and a robust jaw. No other ape from the same time period shows this combination of features. According to the researchers, these traits indicate a flexible diet based mainly on fruit, with some harder foods like nuts and seeds. This adaptability would have been important in northern Africa, with increasing seasonal variation in the climate.
Masripithecus stands out among East African apes of similar age by its anatomy. Its place in the ape family tree is even more significant. By combining fossil features and geological data with DNA from living apes, the team found that Masripithecus appears closer to the lineage that eventually gave rise to modern apes than any previously known Early Miocene species.
“It is well known that the fossil record of hominoids in Africa is geographically very biased,” said David Alba, a paleontologist at the University of Barcelona, in an interview with National Geographic. “It is also known that they were present in Saudi Arabia sometime later, so finding them in northern Africa by this time is important, but not totally unexpected.”
A Corridor Between Worlds
This discovery is important for both geography and anatomy. During the Early Miocene, the African and Arabian plates were moving closer to Asia. At times, lower sea levels reduced marine barriers and opened a corridor through northern Africa and the Middle East. The team’s analysis supports the idea that this region played an important role in the early evolution of living apes. This shifts the focus of ape evolution. East Africa, once seen as the main center of ape origins, may have been more of a peripheral branch.
Erik Seiffert, co-author and paleontologist at the University of Southern California, said the discovery changed his own thinking. “For my entire career, I considered it probable that the common ancestor of all living apes lived in or around East Africa. But this new discovery, and our new and novel analyses of hominoid phylogeny and biogeography, now strongly challenge that idea.”
The genus name Masripithecus combines the Arabic word Masr (for Egypt) with the Greek píthēkos, meaning ‘ape’. The species name is a reference to Wadi Moghra, where the remains were found. The researchers expect that more fossils will be found as fieldwork continues in the region. For now, this discovery shows that important parts of evolutionary history may still be hidden in areas yet to be fully explored.
Austin Burgess is a writer and researcher with a background in sales, marketing, and data analytics. He holds an MBA, a Bachelor of Science in Business Administration, and a data analytics certification. His work focuses on breaking scientific developments, with an emphasis on emerging biology, cognitive neuroscience, and archaeological discoveries.