Neanderthals were more visual, less social, say scientists

An analysis of Neanderthal skulls suggests that Neanderthal brains had bigger visual-processing regions than their Homo sapiens counterparts, but that left them with less space for social cognition. 

Neanderthals had a characteristic 'bun head' shaped skull which allowed for expanded visual processing in the back of the brain. That left them less head space for the frontal lobe, which governs social cognition.

Neanderthal Museum (Mettmann, Germany)

March 13, 2013

Neanderthals' keen vision may explain why they couldn't cope with environmental change and died out, despite having the same sized brains as modern humans, new research suggests.

The findings, published today (March 12) in the journal Proceedings of the Royal Society B, suggest that Neanderthals developed massive visual regions in their brains to compensate for Europe's low light levels. That, however, reduced the brain space available for social cognition.

"We have a social brain, whereas Neanderthals appear to have a visual brain," said Clive Gamble, an archaeologist at the University of Southampton, who was not involved in the study.

Why many in Ukraine oppose a ‘land for peace’ formula to end the war

As a result, the extinct hominids had smaller social and trading networks to rely on when conditions got tough. That may have caused Neanderthals to die off around 35,000 years ago.

Brain size riddle

Just how smart Neanderthals were has been a long-standing debate.

"Either they get regarded as lumbering brutes, or the other side says, 'No, they weren't that stupid. They had enormous brains, so they must have been as smart as we are,'" said study co-author Robin Dunbar, an evolutionary psychologist at the University of Oxford.

To help solve the riddle, Dunbar and his colleagues looked at 13 Neanderthal skull fossils dating from 25,000 to 75,000 years ago and compared them with 32 anatomically modern human skeletons. The researchers noticed that some of the Neanderthal fossils had much larger eye sockets, and thus eyes, than do modern humans. [10 Odd Facts About the Brain]

Low lighting

The team concluded that Neanderthals used their oversized eyes to survive in the lower-light levels in Europe, where the northern latitude means fewer of the sun's rays hit the Earth. (Modern humans also tend to have slightly bigger eyes and visual systems at higher latitudes than those living in lower latitudes, where light levels are higher.) The researchers hypothesized that Neanderthals must, therefore, also have had large brain regions devoted to visual processing.

Howard University hoped to make history. Now it’s ready for a different role.

And in fact, Neanderthal skulls suggest that the extinct hominids had elongated regions in the back of their brains, called the "Neanderthal bun," where the visual cortex lies.

"It looks like a Victorian lady's head," Dunbar told LiveScience.

Anatomically modern humans, meanwhile, evolved in Africa, where the bright light required no extra visual processing, leaving humans free to evolve larger frontal lobes.

By calculating how much brain space was needed for other tasks, the team concluded that Neanderthals had relatively less space for the frontal lobe, a brain region that controls social thinking and cultural transmission.

Isolated and dying

The findings explain why Neanderthals didn't ornament themselves or make art, Gamble told LiveScience.

These results may also help explain the Neanderthals' extinction, Dunbar said.

Smaller social brain regions meant smaller social networks. In fact, artifacts from Neanderthal sites suggest they had just a 30-mile (48.3 kilometers) trading radius, while human trade networks at the time could span 200 miles (321.9 km), Dunbar said.

With competition from humans, a bitter ice age and tiny trading networks, the Neanderthals probably couldn't access resources from better climates, which they needed in order survive, he said.

Follow Tia Ghose @tiaghose. Follow us @livescience , Facebook  or Google+. Original article on LiveScience.com

Copyright 2013 LiveScience, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.