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Study reconstructs Neandertal ribcage, offers new clues to ancient human anatomy

This image from the virtual reconstruction shows how the ribs attach to the spine in an inward direction, forcing an even more upright posture than in modern humans. Credit: Gomez-Olivencia, et al

An international team of scientists has completed the first 3-D virtual reconstruction of the ribcage of the most complete Neandertal skeleton unearthed to date, potentially shedding new light on how this ancient human moved and breathed.

The team, which included researchers from universities in Spain, Israel, and the United States, including the University of Washington, focused on the thorax—the area of the body containing the rib cage and upper spine, which forms a cavity to house the heart and lungs. Using CT scans of fossils from an approximately 60,000-year-old male skeleton known as Kebara 2, researchers were able to create a 3-D model of the chest—one that is different from the longstanding image of the barrel-chested, hunched-over "caveman." The conclusions point to what may have been an upright individual with greater lung capacity and a straighter spine than today's modern human.

The study is published Oct. 30 in Nature Communications.

"The shape of the thorax is key to understanding how Neandertals moved in their environment because it informs us about their breathing and balance," said Asier Gomez-Olivencia, an Ikerbasque Fellow at the University of the Basque Country and the study's lead author.

And how Neandertals moved would have had a direct impact on their ability to survive on the resources available to them, said Patricia Kramer, professor in the UW Department of Anthropology and corresponding author on the paper.

"Neandertals are closely related to us with complex cultural adaptations much like those of modern humans, but their physical form is different from us in important ways," she said. "Understanding their adaptations allows us to understand our own evolutionary path better."

Neandertals are a type of human that emerged about 400,000 years ago, living mostly from what is today Western Europe to Central Asia. They were hunter-gatherers who, in some areas, lived in caves and who weathered several glacial periods before going extinct about 40,000 years ago. Studies in recent years have suggested that Neandertals and early Homo sapiens interbred, because evidence of Neandertal DNA has turned up in many populations.

Patricia Kramer, a University of Washington professor of anthropology, is part of an international team that completed a virtual 3D reconstruction of portions of a Neandertal skeleton. Here, she shows part of the collection of model Neandertal skulls. Credit: Dennis Wise, University of Washington

Over the past 150 years, Neandertal remains have been found at many sites in Europe, Asia and the Middle East. This team worked with a skeleton labeled Kebara 2, also known as "Moshe," which was found in Kebara Cave in Northern Israel's Carmel mountain range in 1983. Though the cranium is missing, the remains of the young adult male are considered one of the most complete Neandertal skeleton ever found. Two different forms of dating of the surrounding soil, thermoluminescence and electron spin resonance, put the age at somewhere between 59,000 and 64,000 years.

Discoveries and studies of other Neandertal remains in the 19th and early 20th centuries gave rise to theories and images of a stereotypical, hunched-over caveman. Over time, further research clarified scientific understanding of many Neandertal traits, but some debate has lingered over the structure of the thorax, the capacity of the lungs and what conditions Neandertals might have been able to adapt to, or not.

Over the past decade, virtual reconstruction has become more commonplace in biological anthropology, Kramer explained. The approach is useful with fossils such as the thorax, where fragile bones make physical reconstruction difficult and risky.

Nearly two years ago, the same research team created a of the Kebara 2 spine, the first step in updating theories of Neandertal biomechanics. The team's paper, published in the book "Human Paleontology and Prehistory," reaffirmed the likelihood of upright posture but pointed to a straighter spine than that of .

For this model of the thorax, researchers used both direct observations of the Kebara 2 skeleton, currently housed at Tel Aviv University, and medical CT scans of vertebrae, ribs and pelvic bones, along with 3-D software designed for scientific use. "This was meticulous work," said Alon Barash, a lecturer at Bar Ilan University in Israel. "We had to CT scan each vertebra and all of the ribs fragments individually and then reassemble them in 3-D."

They then used a technique called morphometric analysis to compare the images of Neandertal bones with medical scans of bones from present-day adult men. "In the reconstruction process, it was necessary to virtually 'cut' and realign some of the parts that showed deformation, and mirror-image some of those that were not so well-preserved in order to get a complete thorax," said Gomez-Olivencia.

The reconstruction of the thorax, coupled with the team's earlier finding, shows ribs that connect to the spine in an inward direction, forcing the chest cavity outward and allowing the spine to tilt slightly back, with little of the lumbar curve that is part of the modern human skeletal structure. "The differences between a Neandertal and modern human thorax are striking," said Markus Bastir, senior research scientist at the Laboratory of Virtual Anthropology at the National Museum of Natural History in Spain.

Credit: Kiyomi Taguchi, University of Washington
"The Neandertal spine is located more inside the thorax, which provides more stability," said Gomez-Olivencia. "Also, the thorax is wider in its lower part." This shape of the rib cage suggests a larger diaphragm and thus, greater lung capacity.

"The wide lower thorax of Neandertals and the horizontal orientation of the ribs suggest that Neandertals relied more on their diaphragm for breathing," said senior author Ella Been of Ono Academic College. "Modern humans, on the other hand, rely both on the diaphragm and on the expansion of the rib cage for breathing. Here we see how new technologies in the study of fossil remains is providing new information to understand extinct species."

What that means for how Kebara 2 lived is ripe for further research, Kramer said. How did Neandertals breathe, and for what physical demands might they have needed powerful lungs? What does that tell us about how they moved, and the environment in which they lived? Did any of these physical traits make them more or less adaptive to climate change?

Reconstructing the thorax was an exercise in starting from scratch, deliberately trying to avoid being influenced by past theories of how Neandertals looked or lived, Kramer said.

"Thinking through all the permutations of the different fragments, it was like a jigsaw without all the pieces. What do the pieces tell us?" she said. "People have told you it should be a certain way, but you want to make sure you're not over-reconstructing, or reconstructing it the way you think it should be. You're trying to maintain a neutral approach."

Other authors of the study were Daniel Garcia-Martinez of the National Museum of Natural History and Mikel Arlegi, of the University of the Basque Country.

Explore further: The genomes of five late Neandertals provide insights into Neandertal population history

More information: Asier Gómez-Olivencia et al, 3D virtual reconstruction of the Kebara 2 Neandertal thorax, Nature Communications (2018). DOI: 10.1038/s41467-018-06803-z

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