Extinct ape species gives new insight on human ancestors

They roamed on Earth 11.6 million years ago

Update: 2015-10-30 19:41 GMT
Representational Image. (Picture Courtesy: Pixabay)

Washington: Researchers have identified a new genus and species of small ape that roamed Earth 11.6 million years ago - before the evolutionary split of humans/great apes (hominids) and gibbons. Named Pliobates cataloniae, the new species has important implications for reconstructing the last common ancestor of the two groups (the living hominoids).

"This fossil discovery is providing a missing chapter to the beginning of ape and human history," said Sergio Almecija, assistant professor at George Washington University (GW)'s Columbian College of Arts and Sciences. "We used to think that small apes evolved from larger-bodied apes, but this new species tells us that small and large apes may have co-existed since hominoids originated. Alternatively, Pliobates might indicate that great apes evolved from gibbon-size ape ancestors," said Almecija. The discovery fills a gap in the fossil record, giving researchers another piece of information about the evolution of great and small apes.

Anthropologists previously thought that great apes were present before small apes, mainly due to the lack of small apes and ancient gibbons in the fossil record. Pliobates has forced them to consider the role that small apes played in hominoid evolution. "These remains clearly belong to an ape, but they are so small," Almecija said. "Then we realised, maybe we are looking at this the wrong way. Maybe some early ape ancestors were smaller than we thought," said Almecija.

The partial skeleton was discovered during the construction of a landfill in Barcelona, Abocador de Can Mata, in 2011 and was composed of 70 fossil remains. Scientists, including those from Institut Catala de Paleontologia Miquel Crusafont (ICP) in Spain, concluded the fossil remains belong to an adult female that weighed between 9 and 11 pounds, consumed soft fruits and moved through the forest canopy by climbing and suspending below branches. The findings were published in the journal Science magazine.

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