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Meet the Man Who Gives Ancient Human Ancestors Their Faces Paleo Artist John Gurche Created Homo Naledi’S Face by Making Hundreds of Minute Anatomical Calculations

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Meet the Man Who Gives Ancient Human Ancestors Their Faces Paleo Artist John Gurche Created Homo Naledi’S Face by Making Hundreds of Minute Anatomical Calculations Meet the Man Who Gives Ancient Human Ancestors Their Faces Paleo artist John Gurche created Homo naledi’s face by making hundreds of minute anatomical calculations. EXCLUSIVE: BUILDING THE FACE OF A NEWLY FOUND ANCESTOR As a paleoartist, John Gurche focuses on combining art and science to create the faces of our long-lost ancestors. With the discovery of Homo naledi, the newest addition to the genus Homo, Gurche was tasked with determining how this creature would have looked, based on bone scans of the fossils found. PUBLISHED SEPTEMBER 14, 2015 We don’t know how old our newfound ancestor Homo naledi is, or how precisely the species is related to us. One thing we can see, now, is what it looks like— thanks to a fossil-based reconstruction created by paleoartist John Gurche. “It was wonderful watching this thing come to be over time,” says Gurche, whose Homo naledibust has been seen by millions of people on the Internet since it was unveiled last week. When photographed in John Gurche’s workshop, Homo naledi’s face (top) didn't have its skin yet. Casts of other primates’ faces used for comparative purposes include a bonobo, left, a chimpanzee, center, and a model of Homo floresiensis, right. PHOTOGRAPH BY JOHN GURCHE Gurche is the artist in residence at the Museum of the Earth in Ithaca, New York, and one of a small handful of experts who forensically reconstruct faces of long-dead hominins. He has created similar busts of other ancient human relatives, including Homo floresiensis, a diminutive hominin sometimes referred to as the Flores hobbit found on the Indonesian island of Flores in 2003, and Australopithecus sediba, discovered by paleontologist Lee Berger in South Africa in 2010. Both have helped complicate our picture of the human family tree. “I love it when someone hands me a skull," Gurche says, "and I get to be the guy that figures out what it looks like. The first step is measuring bones, paying attention to the size of eye sockets and to where jaw muscles insert to gauge how large or small they were during life, plugging those and many more measurements into a 70-page worksheet to make minute anatomical calculations. "I don’t know what the face is going to look like till the end of the project," he says. "It’s often a surprise even to me.” STARTING WITH A SKULL In reconstructing naledi, Gurche started with a composite of two skulls discovered with over 1,500 other fossils in a hard-to-reach South African cave. (Read more about the Homo naledi discovery here.) John Gurche started his Homo naledi bust with a composite of two skulls. Here, he holds the skull held together with wood dowels. His next step is to layer on the clay he uses to model soft tissue. PHOTGRAPH BY JOHN GURCHE The bones showed a strange mix of the more modern characteristics of the genus we belong to, Homo, as well as primitive ones associated with earlier Australopithecus species, leading scientists to conclude that the bones must be the first of their kind to be discovered. They named the new species Homo naledi, after the cave where the bones were found. (See what other scientists are saying about Homo naledi.) Gurche traveled to South Africa in 2014 after the team of cavers had finished excavating the fossils and spent nearly two weeks measuring, drawing, and photographing the remains. He brought plastic casts of the skull home to his workshop in upstate New York to form the base for Homo naledi’s face. Over the next four and a half months, he calculated measurements for Homo naledi’s facial features, layering modeling clay over the plastic cast to create muscles and connective tissues. “You can often see traces of the internal anatomy on the final form,” Gurche says. He then molds the face in silicone—a material that shares the translucent vibrancy of skin. Then it's time to install eyes and hair, and make final color adjustments. Gurche determined the shape of the nose from the small spine of bone at the base of the nasal cavity. Left, an incomplete sculpture of Homo naledi with the soft tissue, nasal septum, chewing muscles, and eyeballs. Right, the final face. PHOTOGRAPH BY JOHN GURCHE A physical anthropologist by training, Gurche never thought he'd end up working in an artist’s studio. “I had such wonder and awe for this phenomenon of humans evolving, and I couldn’t really find a place for that in the scientific work,” he says. He found it in art instead, painting murals in exhibits at the Smithsonian Museum of Natural History and working on dinosaur illustrations and models for books, National Geographic magazine, and movies. “That’s great to take an exotic vacation in the Mesozoic,” Gurche says, referring to his work recreating the creatures and landscape in the time of the dinosaurs, “but working on human ancestors is like coming home.” .
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  • Endocast Morphology of Homo Naledi from the Dinaledi Chamber, South Africa
    Endocast morphology of Homo naledi from the Dinaledi Chamber, South Africa Ralph L. Hollowaya,1,2, Shawn D. Hurstb,1, Heather M. Garvinc,d, P. Thomas Schoenemannb,e, William B. Vantif, Lee R. Bergerd, and John Hawksd,g,2 aDepartment of Anthropology, Columbia University, New York, NY 10027; bDepartment of Anthropology, Indiana University, Bloomington, IN 47405; cDepartment of Anatomy, Des Moines University, Des Moines, IA 50312; dEvolutionary Studies Institute, University of Witwatersrand, Johannesburg 2000, South Africa; eStone Age Institute, Bloomington, IN 47405; fScience and Engineering Library, Columbia University, New York, NY 10027; and gDepartment of Anthropology, University of Wisconsin–Madison, Madison, WI 53706 Contributed by Ralph L. Holloway, April 5, 2018 (sent for review December 1, 2017; reviewed by James K. Rilling and Chet C. Sherwood) Hominin cranial remains from the Dinaledi Chamber, South Africa, We examined the endocast morphology of H. naledi from the represent multiple individuals of the species Homo naledi. This Dinaledi Chamber and compared this morphology with other species exhibits a small endocranial volume comparable to Aus- hominoids and fossil hominins. The skeletal material from the tralopithecus, combined with several aspects of external cranial Dinaledi Chamber includes seven cranial portions that preserve anatomy similar to larger-brained species of Homo such as Homo substantial endocranial surface detail, representing partial crania habilis and Homo erectus. Here, we describe the endocast anat- of at least five individuals. The external morphology of these omy of this recently discovered species. Despite the small size of specimens has been described and illustrated (13). All are the H. naledi endocasts, they share several aspects of structure in morphologically consistent with an adult developmental stage.
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