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Study shows how ecology transformed through 6,000 years of Egyptian history

Depictions of animals in ancient Egyptian artifacts have helped scientists assemble a detailed record of the large mammals that lived in the Nile Valley over the past 6,000 years. A new analysis of this record shows that species extinctions, probably caused by a drying climate and growing human population in the region, have made the ecosystem progressively less stable.

The study, published September 8 in Proceedings of the National Academy of Sciences (PNAS), found that local extinctions of mammal species led to a steady decline in the stability of the animal communities in the Nile Valley. When there were many species in the community, the loss of any one species had relatively little impact on the functioning of the ecosystem, whereas it is now much more sensitive to perturbations, according to first author Justin Yeakel, who worked on the study as a graduate student at the University of California, Santa Cruz, and is now a postdoctoral fellow at the Santa Fe Institute.

Around six millennia ago, there were 37 species of large-bodied mammals in Egypt, but only eight species remain today. Among the species recorded in artwork from the late Predynastic Period (before 3100 BC) but no longer found in Egypt are lions, wild dogs, elephants, oryx, hartebeest, and giraffe.

“What was once a rich and diverse mammalian community is very different now,” Yeakel said. “As the number of species declined, one of the primary things that was lost was the ecological redundancy of the system. There were multiple species of gazelles and other small herbivores, which are important because so many different predators prey on them. When there are fewer of those small herbivores, the loss of any one species has a much greater effect on the stability of the system and can lead to additional extinctions.”

The new study is based on records compiled by zoologist Dale Osborne, whose 1998 book The Mammals of Ancient Egypt provides a detailed picture of the region’s historical animal communities based on archaeological and paleontological evidence as well as historical records. “Dale Osborne compiled an incredible database of when species were represented in artwork and how that changed over time. His work allowed us to use ecological modeling techniques to look at the ramifications of those changes,” Yeakel said.

The study had its origins in 2010, when Yeakel visited a Tutankhamun exhibition in San Francisco with coauthor Nathaniel Dominy, then an anthropology professor at UC Santa Cruz and now at Dartmouth. “We were amazed at the artwork and the depictions of animals, and we realized they were recording observations of the natural world. Nate was aware of Dale Osborne’s book, and we started thinking about how we could take advantage of those records,” Yeakel said.

Coauthor Paul Koch, a UCSC paleontologist who studies ancient ecosystems, helped formulate the team’s approach to using the records to look at the ecological ramifications of the changes in species occurrences. Yeakel teamed up with ecological modelers Mathias Pires of the University of Sao Paolo, Brazil, and Lars Rudolf of the University of Bristol, U.K., to do a computational analysis of the dynamics of predator-prey networks in the ancient Egyptian animal communities.

The researchers identified five episodes over the past 6,000 years when dramatic changes occurred in Egypt’s mammalian community, three of which coincided with extreme environmental changes as the climate shifted to more arid conditions. These drying periods also coincided with upheaval in human societies, such as the collapse of the Old Kingdom around 4,000 years ago and the fall of the New Kingdom about 3,000 years ago.

“There were three large pulses of aridification as Egypt went from a wetter to a drier climate, starting with the end of the African Humid Period 5,500 years ago when the monsoons shifted to the south,” Yeakel said. “At the same time, human population densities were increasing, and competition for space along the Nile Valley would have had a large impact on animal populations.”

The most recent major shift in mammalian communities occurred about 100 years ago. The analysis of predator-prey networks showed that species extinctions in the past 150 years had a disproportionately large impact on ecosystem stability. These findings have implications for understanding modern ecosystems, Yeakel said.

“This may be just one example of a larger pattern,” he said. “We see a lot of ecosystems today in which a change in one species produces a big shift in how the ecosystem functions, and that might be a modern phenomenon. We don’t tend to think about what the system was like 10,000 years ago, when there might have been greater redundancy in the community.”

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In addition to Yeakel, Pires, Rudolf, Dominy, and Koch, the coauthors of the paper include Thilo Gross at the University of Bristol and Paulo Guimaraes at the University of Sao Paolo. This work was funded by the National Science Foundation and the Sao Paolo Research Foundation.

Source: University of California – Santa Cruze press release

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Egyptian Mummies and Artifacts Brought Back to Life in Lab

As Founder and Editor of Popular Archaeology Magazine, Dan is a freelance writer and journalist specializing in archaeology.  He studied anthropology and archaeology in undergraduate and graduate school and has been an active participant on archaeological excavations in the U.S. and abroad.  He is the creator and administrator of Archaeological Digs, a popular weblog about archaeological excavation and field school opportunities.  

Standing still and quiet behind panes of glass that separate her only inches from an onlooking group of curious visitors, Molly Gleeson focuses intensely on a small, irregular-shaped fragment of ancient wood. Donned in light-weight blue lab attire and blue nitrile gloves, she carefully and meticulously treats and prepares a small piece of wood from a fragmentary coffin excavated in 1901. The coffin remains were brought back from a site in Abydos, Egypt, where the University of Pennsylvania was supporting excavations under the directorship of John Garstang through the Egypt Exploration Fund. It is a site where the Penn Museum has continuously conducted excavations since the 1960s. This small fragment, or ‘board’, as it is called, along with six other boards, is special because it exhibits the remaining traces of painted images and hieroglyphs that once graced the coffin in its full splendor over 4,000 years ago. It was a funerary survivor of Middle Kingdom Egypt. But this piece shows clear signs of termite damage, a destruction that had actually already taken place before the coffin was discovered and excavated. Gleeson’s most immediate objective, after study and research, is to stabilize it from further deterioration, and then restore it as much as possible and apply protective elements for continuing study and future display. It requires cleaning the surface with tools like a kneaded rubber eraser, stabilizing edges where there is paint loss with a 2% solution of methyl cellulose in water, and restoring pieces that had become detached “using a mixture of 5% methyl cellulose and Jade 403, an ethylene vinyl acetate emulsion.”* Such are the tools and techniques of the modern conservationist.

Gleeson is the Rockwell Project Conservator in the University of Pennsylvania Museum of Archaeology and Anthropology’s popular “mummy” lab, otherwise known simply as the Artifact Lab. Today, she and her colleagues are doing things that could be described as small miracles of ‘healing’—what is broken or faded or tainted with the ravages of time can be, in a very real sense, made whole again—at least as much as can be realistically expected. But a hundred years ago, when the coffin fragments were first excavated, the knowledge, skills and equipment required for such operations were not nearly as developed and sophisticated. Gleeson and her team would not be alone in saying that, today, restoration and conservation is an essential extension of the excavating and data collection done in the field, due in no small measure to the advances that have been made in our understanding of how and why ancient things can be preserved for both display and continuing analysis and study.  

“Our time in the field is limited by the length of the field season and the funds available to support conservation work on the excavation,” says Gleeson. Weather, political issues, and the nature of the discoveries are additional factors. But “in the lab we have access to microscopes, instruments and equipment (such as x-ray units) that we typically do not have in a field setting.” The tools of the trade include an expanding variety of materials and techniques for examination, treatment and research, including such things as optivisors (magnifying visors), solvents and adhesives, specially tested paper and fabrics, brushes, cotton swabs, scalpels, spatulas, and binocular microscopes.  “We also use a polarizing light microscope to examine tiny fragments of objects in order to identify what they’re made of and to identify corrosion and burial products,” Gleeson adds. 

These conservators are perhaps most popularly known for their work on the Penn Museum’s collection of Egyptian human and animal mummies, donated to the Museum in years past or acquired from excavations and field expeditions carried out or supported by the University of Pennsylvania prior to 1967. They have thus found themselves working on a range of mummies, from an unknown man mummified during the Third Intermediate Period (ca. 800 BCE) to a small Ibis mummy (a mummified long-legged wading bird), both from storage, just recently unwrapped and repaired. But projects often also include objects related to past expeditions in other parts of the world and associated with other civilizations, such as artifacts from the Penn Museum excavations at Lapithos (in present-day Cyprus) and the historic excavations at the Royal Cemetery of Ur (in present-day Iraq).  

In any case, even after the work in the field is finished, the project conservator’s job is an ongoing one, typically extending many years after the initial data collection and analysis has completed its cycle.

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mummydoctorsPaintedCoffinBoards

A close-up of fragments from a painted wooden coffin, excavated in 1901 from North Abydos, dating to ancient Egypt’s Middle Kingdom. The wood in these fragments is severely insect-damaged by termites, and paint is actively flaking. Previous treatment on the fragments, using some kind of plaster, is also degrading and falling away—a piece of this plaster is visible at center. Photo: Penn Museum.

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mummydoctorsPaintedCoffinBoardsTreatment

Conservator Molly Gleeson applies an adhesive by brush to stabilize the flaking paint on a painted coffin board. After treatment, these boards will be exhibited at the Museum for the first time. Photo: Penn Museum.

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mummydoctorsKneadedRubber

Conservators are able to use some simple tools to their advantage. This kneaded rubber eraser will be used to clean the surface of a painted wooden coffin. Photo: Penn Museum.

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mummydoctorsMicroscope

Gleeson examines a painted coffin board under a microscope to better understand its manufacture and treatment history. The screen at left is mirrored outside of the lab to offer the public a close view of what she is seeing under the lens. Near the center of the screen, a tiny brush is seen applying small drops of adhesive to the edge of the painted decoration, which will help to stabilize the fragile paint. Photo: Penn Museum.

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mummydoctorsPreservationPencil

Gleeson works on realigning sections of the roughly 2,500-year-old coffin of an individual named Tawahibre, who lived during the Late Period in ancient Egypt (558 — 332 BCE). Here, she uses a “Preservation Pencil,” which allows her to direct a stream of humidified air at specific areas of the coffin, relaxing the plaster and wood. After it has moved sufficiently, she will apply pressure to the area to hold everything in place. Photo: Penn Museum.

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Before and after: The coffin shown at left before conservation treatment, and again after treatment at right. Photos: Molly Gleeson.

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Advancing Knowledge

Conservation in the lab is not only about fixing and preserving things. For centuries, mummies and their associated objects and architectural context have helped to tell the story of ancient Egypt. So in the process of preserving and restoring them, the scientists of the Artifact Lab have discovered new things and raised new questions about ancient Egyptian life and culture.

Gleeson and her colleagues are currently working on an Egyptian Predynastic mummy. Determined to have been a man aged 60 at the time of his death about 6,000 years ago, he was originally donated to the Museum in 1898 by Ethelbert Watts, who was serving as an Assistant American Consul in Cairo at the time. The mummy has been in storage ever since—until 2011, when the mummy was ‘re-discovered’ and brought out of storage by Dr. Jane Hill of Rowan University and her colleague Dr. Maria Rosado.

Nicknamed “Bruce”, he is a curious brown bundle. Within the mass one can see a flexed, articulated skeleton, not unlike other Predynastic mummies.

But Bruce is different. 

“He was buried lying on his side, in a flexed position, wrapped in layers of linen, animal skin, and a woven reed mat, and included in the bundle are very finely woven baskets,” says Gleeson. “We are undertaking a technical study of the remains in collaboration with Dr. Hill  and plan to create a new storage mount to provide additional protection for the fragile bundle.”

The study could significantly change or add to what we know about ancient Egyptian burials before the pharaohs.

“Everything that we learn from this mummy,” Gleeson continues, “from the way in which his body was prepared, to the materials used in his bundle, will bring new information to light about early technologies and funerary practices in ancient Egypt.”

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mummydoctorsPredynasticMummy1

Above and below: Gleeson examines the oldest mummy in the Penn Museum, a Predynastic mummy that dates to roughly 4000-3600 BCE. Molly is working to identify the type of animal hide in which the mummy is wrapped, as well as the animal hairs used to make the finely woven baskets that are embedded in the “burial bundle.” Photos: Penn Museum.

mummydoctorsPredynasticMummy3

mummydoctorsPredynasticMummy2

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It isn’t just conservation and research on the earlier mummies that is breaking new ground and raising new questions. “Bruce” is only one among a number of mummies within the Penn Museum’s collection, considered to be among the most important repositories of ancient Egyptian mummies and funerary materials undergoing active conservation in the U.S. The collection spans thousands of years of Egyptian history. It includes some of the earliest known mummies, which were preserved naturally in time through the effects of the hot desert sand, as well as those that were produced later during the pharaonic periods through artificial methods. “One of the most memorable experiences has been working on a mummy that we call PUM I (Philadelphia University Museum 1),” says Gleeson. PUM I is a man who lived during the Third Intermediate Period (about 850 BCE). Initially donated to the Museum in 1905, the body was autopsied in 1972 and has been in storage ever since. “Working on his remains has uncovered a lot of new information and has challenged previous assumptions,” she continues. “For instance, during the autopsy it was discovered that the body was probably never fully mummified. His internal organs were found during the procedure. As a result his remains are very badly deteriorated under the linen wrappings. Based on this finding, it was assumed that he was likely someone of lower status. But during the recent conservation work, we noted that his remains were wrapped in over 30 layers of linen, and we uncovered and documented traces of a once very elaborate beaded shroud. The fact that he was wrapped in many layers of linen and the presence of this shroud, which would have been expensive and not something that everyone could have afforded, conflicts with the previous assumption about his status. Such findings raise interesting questions about how and why people were making decisions about their burials.”

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Gleeson works with PUM 1, whose outer shroud is actively flaking. Here she is shown attempting to reattach a disassociated fragment to the shroud. Photo: Penn Museum.

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Above and below: The In the Artifact Lab: Conserving Egyptian Mummies exhibition has also served as a valuable educational setting for budding conservators. Here, Gleeson (right) works with Conservation Intern Anna O’Neill to sort through disassociated fragments of the outer shroud of a mummy before attempting to reattach them. Photos: Penn Museum.

mummydoctorsPUM1-3

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The Big Picture

The Penn Museum’s vast collections have much to do with the institution’s sustained standing at the cutting edge of the science. Since its founding in 1887, the Museum has collected nearly one million objects. Only a fraction of them are exhibited in the Museum’s public gallery spaces. There are hundreds of thousands more stored away, unseen by the public. Much of it awaits the magic of the conservator’s hand before they can be properly exhibited or effectively studied further. So the conservator’s job, in addition to applying an advancing science, is a never-ending one. But it involves much more than spending hours within the exclusive confines of the lab. For David Silverman, the Curator-in-Charge of the museum’s Egyptian collections, it has a lot to do with the lab’s role in presenting the bigger picture of the Egyptian civilization to the visiting public, and it all fits into the Penn Museum’s plans for change over the next few years. This will include conservation work and reinstallation of the museum’s prized throne room of Pharaoh Merenptah’s palace to its full height, something that had been unsuccessfully attempted in the 1930’s because of structural weakness in the floor carrying capacity of the intended gallery space. “Hopefully, the Artifact Lab will become an important part of this project,” he says.  

“The conservation of the western wall of the tomb chapel of the treasury official, Kaipure, is the next largest project,” he continues.  “Begun in the 1990s, the project was able to conserve the stone blocks and the beautifully carved and painted reliefs on their surfaces.  It was exhibited around the country at several museums in the late 1990s, and we await the opportunity of beginning the second half of the project to conserve the remaining walls and then reinstall the entire tomb chapel as it had originally appeared. Other projects include examination and conservation of mummies, papyri, and wooden artifacts.”

Ultimately, it is all about education and the public. After all, the Artifact Lab is part of a museum, and the museum is connected to a major university. “One of the motivations [for establishing the Lab],” says Silverman, “came from our desire to involve the public more in the activities of the museum, explaining the type of work that goes on behind the scenes and why and how we do it. Another was to have the opportunity to work on a greater number and variety of artifacts. As a curator, I welcomed the opportunity to work on material (sarcophagi, papyri, sculpture, mummies, etc.) that the facilities, lighting, climate, and space in storage would not allow. And the public can participate in the action as the events unfold and knowledge is revealed. They become part of the process and are less a passive observer after the fact than a participant who is part of the action.”

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mummydoctorsDavidSilvermanAndLynnGrant

Standing behind the glass in the In the Artifact Lab: Conserving Egyptian Mummies, Dr. David Silverman, Curator, Penn Museum Egyptian Section, and Lynn Grant, Penn Museum Head Conservator, examine object #E16218C—a coffin board from the Egyptian site of El-Bersheh. Photo by Steve Minicola, University Communications.

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mummydoctorsSilverman

Silverman in the Museum’s Egypt (Sphinx) Gallery. Behind him is a 15-ton red granite Sphinx of Ramesses II, 19th Dynasty, (ca. 1293–1185 BCE), found in Memphis, Egypt. Photo: Penn Museum.

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mummydoctorsOpenWindow2

For the conservators, interaction with Museum visitors is a major part of the daily routine. Here, Haas Trust Conservator Nina Owczarek answers questions from a group of visitors about her current project during one of the lab’s twice-daily, half-hour “open window” sessions. Photo: Penn Museum.

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In the Artifact Lab: Conserving Egyptian Mummies can be seen by visitors in the Upper Baugh Pavilion on the 3rd floor of the Penn Museum in Philadelphia. Because it is a working lab, conservators are usually busy focusing on their ongoing projects, but visitors may ask questions weekdays, 11:15 – 11:45 am and 2:00 – 2:30 pm, and weekends, 12:30 – 1:00 pm and 3:30 – 4:00 pm. Readers can also keep up with the latest activities and developments in the Artifact Lab by going to the Artifact Lab Blog.

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* From Treating fragments of a Middle Kingdom painted wooden coffin, by Molly Gleeson, In the Artifact Lab Blog, July 6, 2014.

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Read about the most fascinating discoveries with a premium subscription to Popular Archaeology Magazine.  Find out what Popular Archaeology Magazine is all about.  AND MORE:

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discovery2014cover2

Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Museum Plans to Restore Ancient Egyptian Throne Room

As Founder and Editor of Popular Archaeology Magazine, Dan is a freelance writer and journalist specializing in archaeology.  He studied anthropology and archaeology in undergraduate and graduate school and has been an active participant on archaeological excavations in the U.S. and abroad.  He is the creator and administrator of Archaeological Digs, a popular weblog about archaeological excavation and field school opportunities.  

Any visitor would find it difficult to miss the Penn Museum’s iconic red granite sphinx. Resting center stage in the museum’s Lower Egyptian Gallery space, one doesn’t need to know that its estimated 15 tons of stone make it massive—the eyes already have it. It is touted as the third largest known sphinx in the Western Hemisphere. Originally quarried at Aswan by the ancients over 3,000 years ago in Upper Egypt, it was then floated down the Nile river to grace the sacred enclosure of Ramesses II’s Temple to Ptah at ancient Memphis.

Despite its incredible workmanship, however, the face of this sphinx can no longer be seen. It has long been eroded away by windblown sand over centuries of exposure. But from the shoulders down, details remain in place, that portion having been buried by sand and time and protected. One can still see inscriptions carved on its chest and about its base, looking almost as if they had been carved yesterday. 

Surrounding the sphinx are the monumental reminders of another ancient pharaoh. Known as Merenptah, he was the 13th son of Ramesses II, having succeeded his father to the throne at a relatively advanced age and ruling for almost 10 years. Some of the monumental elements of his palace—massive partial columns, a gateway, doorframes, and lintels—which once stood pristine, complete, and fully painted near the Temple of Ptah and its sanctuary where the sphinx stood millennia before—are artfully represented. They constitute the most substantial assemblage of an ancient Egyptian palace in any single collection in the world.

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Egypt Sphinx GalleryIn the Penn Museum’s Egypt (Sphinx) Gallery, visitors can view the 15-ton Sphinx and its surrounding pillars and gateways, which date back to the 19th Dynasty (ca2393-2285 BCE) in Memphis, Egypt. The Sphinx of Ramesses II was excavated from the sacred enclosure of the temple of the god Ptah. The pillars and gateways were part of the palace of Merenptah. Photo image courtesy Penn Museum

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doorjampalacemerenptahBut there is more to this assembly than meets the visitor’s eye. Part of it remains in storage. And Penn Museum (short for University of Pennsylvania Museum of Archaeology and Anthropology) Director Julian Siggers has big plans for it, along with many other exhibition spaces at the museum.

“What we are to embark upon is the most ambitious renovation this museum has ever seen,” said Siggers, speaking of his vision to completely reinstall some of the museum’s signature galleries. “And in our basement we have a New Kingdom palace, the palace of Merenptah, and central to our plans is to install the throne room of the palace, complete with the full columns.” 

The plan harkens back to an earlier time, when, in the early 20th century Penn Museum archaeologist Clarence Fisher conducted excavations at a site in ancient Memphis that contained clues of a royal structure. By 1915, he and his work team had uncovered the major elements of what he identified as the Palace of Merenptah. More than 50 tons of excavated material, consisting of massive architectural elements such as columns, a monumental gateway, lintels, and doorframes, eventually made their way back to the Penn Museum in 1924 (see doorjamb example, above). Museum planners and curators were anxious to get these spectacular finds on display for the world to see, and thus a 3rd floor gallery space was prepared for the exhibition.

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merenptah-palace-excavation-1915Above, Merenptah’s palace being uncovered during the excavation in 1915. Below, the throne room of the palace emerges. Courtesy Penn Museum archives.

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throne-room-palace-merenptahMerenptah’s throne room emerges during excaations in 1915. Courtesy Penn Museum archives.

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But their initial vision could not be met. As it turned out, the gallery floor structure was not strong enough to sustain the weight of the massive objects. “The ceiling height was originally designed in the ’30’s to accommodate the full-length columns, but they miscalculated the floor carrying capacity,” said Siggers. The collection was moved to a first floor gallery, where they are seen today along with the sphinx—but only in part. The columns, for example, can only be seen as fragments or sections of their original form. Unseen elements still rest in storage, where today they await plans to restore the columns and gateway elements to their full height in a grand realization of the original scale in the 3rd floor gallery space as originally intended. “We just completed a feasibility study of how we can actually reinforce that floor very cheaply,” Siggers added. The project is expected to take at least several years to complete, in tandem with the many other renovation projects on the agenda.

The throne room reconstruction will be an apt tribute to a man who, like many of the pharaohs who came before and after him, made a clear imprint on Egyptian history. He is known to have carried out several military campaigns during his rule. In the 5th year of his reign he battled the Libyans, who, along with the help of the Sea Peopleswere challenging his kingdom from the West. He led a successful battle against the combined Libyan and Sea People forces at the city of Perire. Regarding another military theater, the Merneptah Stele, also known as the ‘Israel Stele, documents his victorious campaign in Canaan, where he boasts to have laid waste to the inhabitants there, including the ‘people of the book’:  “Israel has been wiped out…its seed is no more.” He escaped death on the battlefield, having died an old man, suffering from arthritis and arteriosclerosis. His remains, which were found in 1898 with a mummy cache of eighteen other mummies in the tomb of Amenhotep II (KV35) by Victor Loret, were transferred to Cairo and unwrapped and examined by G. Elliott Smith in 1907. Smith wrote:

The body is that of an old man and is 1 meter 714 millimeters in height. Merenptah was almost completely bald, only a narrow fringe of white hair (now cut so close as to be seen only with difficulty) remaining on the temples and occiput. A few short (about 2 mill) black hairs were found on the upper lip and scattered, closely clipped hairs on the cheeks and chin. The general aspect of the face recalls that of Ramesses II, but the form of the cranium and the measurements of the face much more nearly agree with those of his [grand]father, Seti the Great.*

Adjacent to the current gallery holding the Merenptah palace objects is a space exhibiting a small-scale artist’s model reconstruction of the throne room as it would have appeared in Merenptah’s day. Unlike the real, full-scale remains displayed nearby, it is brightly illustrated with the colors and symbols that would have adorned walls, columns and other architectural elements of the time. But it can’t compare in originality, feel and grandeur to the actual monuments  nearby. In this sense, actually ‘seeing is believing’—and putting it all together, at last, will be a perfect closure to a resurrection that began almost 100 years ago. 

Merenptah would be proud.

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MA1994-12An original watercolor reconstruction of the Throne Room of the Palace of Merenptah, painted by Mary Louise Baker, 1920. Image courtesy Penn Museum Archives.

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Throne Room ModelAn interior view of a model depicting a modern reconstruction of the Throne Room of the Palace of Merenptah, created in the 1930s by Mary Louise Baker. Photo image courtesy PennMuseum.

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Image third from top, right: Limestone door jamb from Palace of Merenptah, depicting the pharaoh in smiting pose defeating Asiatic enemies. Courtesy Penn Museum.

* Grafton Elliot Smith, The Royal Mummies, Cairo (1912), pp. 65-70 

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A R T I C L E   S U P P L E M E N T 

Penn_Museum

THE PENN MUSEUM’S BIG PLANS

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Williams Director Julian SiggersJulian Siggers is a man with a vision. Since assuming his responsibilities as the Williams Director of the University of Pennsylvania Museum of Archaeology and Anthropology in July of 2012, he has begun to reshape, in both institutional mission and physical layout, the museum’s face to the world. 

“I knew about this museum when I was an undergraduate in London,” says Siggers. “But even earlier, as a teenager my parents gave me a copy of Gods, Graves and Scholars, and one of the key stories it relates is the story of Ur, which of course is the account of the Penn Museum’s excavations there. So when I came here it was this incredible opportunity, because the focus of this museum, as a University museum, is of course research.”

It is thus Siggers’ dream to share this excitement of discovery through research with the public, launched from the foundation of it’s new mission statement, The Penn Museum transforms understanding of the human experience.

“What I have been able to do is work on a new strategic plan, and central to that is the reinstallation of some of our signature galleries, which includes our Egyptian galleries, our Asian *galleries, and our Near Eastern galleries,” Siggers continues. “These are some of the areas where our greatest excavations have been conducted. We’re going to bring the excitement of discovery into the galleries by redesigning everything and rethinking it from the ground up.”

It will mean presenting the objects in a chronological historical context so that visitors can understand the material culture as it developed in the timeline of human history. But what is more, it will be about telling the story of how and where they were discovered and who discovered them.

“Often when one goes to museums, the galleries are actually developed by departments, and they don’t reflect how one should properly tell the story of the past,” he explains. “I’m hoping to have more of a continuous story. But the thing I most want to see in the new galleries is to show how dynamic the process of discovery is. Right now we have all of these field projects, with people in Kurdistan, Egypt, Turkey, France, and Mesoamerica, and they’re coming back with these wonderful discoveries, and so we need to find a way to get these discoveries in the gallery.”

But Siggers’ new strategic plan goes beyond the gallery renovations. Two other initiatives will emphasize the museum’s prime traditions as a research and educational institution. The first will capitalize on the museum’s strength as a teaching and research institution—establishment of the Center for the Analysis of Archaeological Materials. In collaboration with the University of Pennsylvania’s School of Arts and Sciences, it is hoped that it will become a premier center for the teaching of archaeological science. The second, reaching out to potential future generations of archaeologists and history enthusiasts, involves a new partnership with the School District of Philadelphia. Bringing the fascination of archaeology and ancient history to the youth will be a major focus of the museum’s ongoing mission for public outreach and local engagement. It “will serve every 7th grade public school student in the city,” state museum officials.*  

In the end, Siggers feels that the science and contribution of archaeology is not only about discovery—it’s about translating it from the exclusive halls of academia and the specially equiped labs to those who ultimately matter the most in terms of understanding the human past—the inquisitive, appreciative public and future generations.

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* Building Transformation: A Strategic Plan for the Penn Museum 2013 – 2020, Expedition Magazine, Spring 2014, Volume 56, No. 1, p. 59

Photo image of Julian Siggers courtesy Penn Museum.

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Source: Republished from the free special feature article entitled Merenptah Rising, in the Fall issue of Popular Archaeology Magazine.

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Research Shows Early Neanderthal Extinction on Iberian Peninsula

Some scientists have suggested that the Iberian Peninsula might have been one of the last refuge zones of the Neanderthals before their extinction. This is because certain sites in this region of Europe have, according to the researchers, revealed evidence of continued Neanderthal habitation less than 40,000 years ago. 

Recent findings of a team of scientists at a cave in Spain, however, have shed some additional light on the long-debated topic. Cristo M. Hernández of Universidad de La Laguna and colleagues performed thermoluminescence (TL) and optically stimulated luminescence (OSL) dating tests on material recovered from El Salt, a Middle Palaeolithic site in Alicante, Spain, and came up with an archaeological sequence that shows a transition from recurrent to sporadic human occupation ending ultimately in the abandonment of the site, during the period between ca. 60 and 45 ka. 

“An abrupt sedimentary change towards the top of the sequence suggests a strong aridification episode coinciding with the last Neanderthal occupation of the site,” report Hernández and colleagues. “These results are in agreement with current chronometric data from other sites in the Iberian Peninsula and point towards possible breakdown and disappearance of the Neanderthal local population around the time of the Heinrich 5 event [aridification due to a climate fluctuation around 45,000 years ago].

Hernández suggests that Iberian sites with recent dates of less than 40,000 years ago and attributed to the Middle Palaeolithic should therefore be revised in the light of the data.*

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*From the published abstract: Bertila Galván, Cristo M. Hernández, Carolina Mallol, Norbert Mercier, Ainara Sistiaga, Vicente Soler, New evidence of early Neanderthal disappearance in the Iberian Peninsula, to be published in the Journal of Human Evolution.

Cover Photo, Top Left: Hairymuseummatt, Wikimedia Commons

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Read about the most fascinating discoveries with a premium subscription to Popular Archaeology Magazine.  Find out what Popular Archaeology Magazine is all about.  AND MORE:

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Ancient 6,500-Year-Old Skeleton from Ur Excavations Gets a Public Audience

Following an early August announcement of a “rediscovered” find in a Physical Anthropology storage room—a rare, fragile, but largely intact 6,500-year-old human skeleton from the famous Ur excavations in what is now Iraq—the Penn Museum has moved the skeleton to a public space beginning Saturday, August 30.

Media throughout America, Europe, Asia, and Australia picked up on the story of the rediscovery—made possible via a digital documentation project that led to the positive identification of the ancient skeleton in a Museum storage room.

“Our goal as a museum and research institution is to share what we love with the public—the thrill of discovery, or in this case, the thrill of re-discovery,” said Julian Siggers, the Penn Museum Williams Director.  “Exploring and investigating our shared human past, whether it be in the field, in the lab, in the archives, or in storage, is what makes the field of archaeology and anthropology so exciting for us. We hope our visitors can join us as we make these fascinating connections.”

Unearthed in 1929–30 by Sir Leonard Woolley’s joint Penn Museum/British Museum excavation team at the site of Ur in what is now southern Iraq, the skeleton is about 2,000 years older than the materials and remains found in the famous Mesopotamian “royal tombs,” the focus of a Penn Museum signature exhibition, Iraq’s Ancient Past: Rediscovering Ur’s Royal Cemetery

After Woolley uncovered the Royal Cemetery, he sought the earliest levels in a deep trench that became known as “The Flood Pit” because, around 40 feet down, it reached a layer of clean, water-lain silt. Though it was apparently the end of the cultural layers, Woolley dug still further. He found burials dug into the silt and eventually another cultural layer beneath. The silt, or “flood layer,” was more than ten feet deep in places.

Reaching below sea level, Woolley determined that the original site of Ur had been a small island in a surrounding marsh. Then a great flood covered the land. People continued to live and flourish at Ur, but the disaster may have inspired legends. The first known recorded story of an epic flood comes from Sumer, now southern Iraq, and it is generally believed to be the historic precursor of the Biblical flood story written millennia later.

The burial that produced the Penn Museum skeleton along with ten pottery vessels was one of those cut into the deep silt. Therefore, the man in it had lived after the flood and was buried in its silt deposits. The Museum researchers have thus nicknamed their re-discovery “Noah,” but, as Dr. Hafford notes, “Utnapishtim might be more appropriate, for he was named in the Gilgamesh epic as the man who survived the great flood.”

According to Dr. Janet Monge, Curator-in-Charge, Physical Anthropology Section of the Penn Museum, a visual examination of the skeleton indicates it is that of a once well-muscled male, about age 50 or older. Buried fully extended with arms at his sides and hands over his abdomen, he would have stood 5’ 8” to 5’ 10” tall.

Skeletons from this time in the ancient Near East, known as the Ubaid period (roughly 5500–4000 BCE) are extremely rare; complete skeletons from this period are even rarer. Woolley’s team excavated 48 graves in the early, Ubaid-era flood plain; of those, Woolley determined that only one skeleton was in condition to recover: the skeleton that has now been identified in the Penn Museum’s collection. He coated the bones and surrounding soil in wax and shipped the entire skeleton to London, then on to Philadelphia.

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upperbody

A close-up view of the upper body and skull, showing the well-preserved teeth (photo: Kyle Cassidy, 2014) Courtesy Penn Museum

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The Ur skeleton was transported from storage to the Museum’s popular, ongoing In the Artifact Lab. Part exhibition gallery, part working laboratory, In the Artifact Lab invites visitors to watch Museum conservators at work on ancient Egyptian mummies—as well as artifacts from the Egyptian Section and other collections. The Ur skeleton is on partial view while on a working table inside the glass-enclosed lab space, with some images and information provided on a video screen. As soon as conservators complete their work documenting, cleaning, and stabilizing the skeleton, it will move to a display case in front of the lab; then visitors will have an opportunity to get a very up-close view.

Conservators estimate that the skeleton will be ready to move to the case by late September (date to be posted on the Museum website when known); the skeleton will stay on view through Saturday, October 18, when the Museum celebrates International Archaeology Day with a host of family activities and a chance to visit the new Center for the Analysis of Archaeological Materials.

Opportunity to Learn More

While the skeleton is inside In the Artifact Lab and later on display, visitors will have frequent opportunities to meet with a physical anthropologist or informed physical anthropology student to ask questions.  From Saturday, August 30 through Sunday, September 14 (exception: Labor Day Monday, when the Museum is open), an expert will be on hand from 11:00 am to noon, and again from 1:00 to 2:00 pm. From September 16 through International Archaeology Day on October 18, a physical anthropologist or student will be on hand Tuesday through Sunday (exception: Wednesdays) from 1:00 to 2:00 pm.

Also for those who want to find out more, Dr. William Hafford, Ur Digitization Project Manager, posted a blog entry on Beyond the Gallery Walls, the Penn Museum’s blog, with additional information about the skeleton and its history.

For more about what scientists are doing In the Artifact Lab, see the In the Artifact Lab blog and the special feature story in the current issue of Popular Archaeology Magazine.

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Source: Adapted and edited from two Penn Museum news releases: The Penn Museum Invites Visitors to Share in Recent “Re-Discovery”, and 6,500-Year-Old Skeleton Newly “Discovered” in the Penn Museum

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Read about the most fascinating discoveries with a premium subscription to Popular Archaeology Magazine.  Find out what Popular Archaeology Magazine is all about.  AND MORE:

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discovery2014cover2

Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Rediscovering a Giant

Christofilis Maggidis is currently Director of Glas, Assistant to the Director of Mycenae, and President of the Mycenaean Foundation with nearly three decades of field experience at major archaeological sites, including Mycenae, Glas, Crete (Archanes, Idaion Cave), and Akrotiri (Thera). Since receiving his post-doctorate from Brown University and a research fellowship from Harvard, his research and teaching interests focus primarily on Minoan and Mycenaean art and archaeology, but they also include topics in Greek sculpture and architecture. Maggidis is the author of many articles, international conference papers, and three forthcoming books.

It all began some twenty-five years ago in the boiling-hot and humid basin of Kopais, a drained marshland in the region of Boeotia in Greece. In July of 1990, already a first-year graduate student at the University of Pennsylvania, I was working as a sector supervisor at the archaeological excavation of the Mycenaean citadel of Glas under the direction of my mentor, the late Sp. Iakovidis. At the time, our work focused on the east wing (C) in the area of the so-called “Agora,” the largest of three central enclosures that were protected by the cyclopean fortification walls of the citadel. The finds were astonishing: my team was unearthing a long storage building with ramps (K), which was filled with a thick destruction layer of burnt soil and crops, and residential quarters (M) that yielded frescoes, bronze pivot sockets, the first (and so far the only) seal stone ever found at Glas, and pottery dating the destruction (advanced LH III B2 – ca. 1220 BC). During intervals and occasionally in the afternoons I would walk the site with the other sector supervisor, my friend Dimitris Chaniotis, an archaeologist of the Department of Underwater Antiquities: it made no sense to either of us that two thirds of the vast area of the citadel (ten times the size of Tiryns and seven times that of Mycenae) would have been left void of any structures, as Iakovidis believed and published it, or that three kilometers of massive cyclopean walls would have been built to protect empty space. The site was literally covered with Mycenaean pottery sherds and at places wall corners were partly emerging from the soil, as also noted by R.H. Simpson in his plans and descriptions of the citadel (Mycenaean Greece, 1982). We promised ourselves that one day we would return to the site to further explore it. Dimitris never made it – he died young after a routine dive.

Almost twenty years later, while I was excavating the newly discovered Lower Town of Mycenae under the direction of Iakovidis, I made up my mind to pursue my long-standing goal. The last weekend of July 2009, I drove back to Athens to chat with Iakovidis. After having a cup of coffee at his apartment in the city, I posed the critical question: would he object to a re-investigation of Glas so long after his final publication of the site? At first, he tried to discourage me: the rest of the citadel was most probably empty; it would be a certain waste of funds, time and energy; and in any case, I had more important work to do at Mycenae with him, he said. I disagreed, remarking rather audaciously that he did not believe that there was a Lower Town at Mycenae either, which we did find after all. I promised that I would continue excavating and publishing at Mycenae with him ceaselessly as I had done for the past twenty years, and reminded him that at my age he was conducting not two, but three excavations at a time. He paused and stared at me enigmatically; if there were anything else to be discovered at Glas, I added, who else had better find it, if not his own protégé? He then smiled and nodded affirmatively. One year later, he was impatiently pacing in the hall of the McCarthy House at Mycenae in anticipation of my preliminary survey results; I still remember vividly his astonishment when I unfolded the new map of Glas before his eyes…

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glasBoeotiaandKopaisMapsMaps illustrating locations of Boeotia and Kopais. Credit: Iakovidis

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Description

glasaerialviewA vast citadel, today known as “Gla(s)” or “Kastro” (castle), was built on top of an island-like, flat-topped bedrock outcrop rising 9.5-38 m above the plain below and encompassing an area of 20 ha or 49.5 acres or 200,000 square meters at the northeastern edge of the Kopais basin. The Mycenaean citadel of Glas was fortified by a massive cyclopean wall (5.50-5.80 m thick), which runs along the brow of the rocky natural platform for approximately 3 km, features four gates (including one double gate), and encompasses a cluster of three adjacent and intercommunicating central enclosures. (Image credit above: Antonia Stamos)

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GLASgeneralplanforsurvey

General plan of the Glas site. Credit: Iakovidis

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The northern enclosure (II) (3.7 acres or 1.5 ha) surrounds an administrative and residential complex with two ‘twin’ long wings built at an angle on the summit of the rocky hill. Either wing contains a focal, single-storey megaron-like room (melathron) at its remote end, which was richly decorated with frescoes but lacks a throne or a fixed central hearth surrounded by interior columns. Both wings also contain several two-storey residential apartments communicating through two long corridors and a central staircase. The southern enclosure (III) (12.6 acres or 5.1 ha) encompasses two parallel, long (ca. 150 m.) storage buildings with a total capacity of ca. 2,000-2,500 metric tonnes, which were divided internally by cross-walls and were equipped with wide access ramps; other attached subsidiary rooms used as guard houses, personnel residential quarters, workshops, and kitchens (comprising totally ca. 660 sq. m.) were arranged quite symmetrically north and south of the storage facilities and were often decorated with frescoes (several rooms in E, Z, M, N, but also in A, H). The southern enclosure is connected with the south gate of the citadel via a road running through a central propylon on its southern peribolos wall, while another road connects the northern enclosure with the north gate of the citadel through a propylon on its eastern peribolos wall; the two adjacent enclosures communicate through a guarded internal gate. Another smaller enclosure is formed immediately east of the northern enclosure without any apparent entrance or visible ruins (I). Finally, an internal cross-wall running from the central tower of the southeast double gate to the north cyclopean wall separates and isolates the eastern sector of the citadel which was, thus, accessible only from the eastern entrance of the double gate (IV).

But what was the purpose of this vast Mycenaean citadel and how did it relate to its surrounding landscape? The Mycenaean palatial economy required specialized agricultural production to meet basic needs of a fast growing population and to afford surplus for exportation. However, the indigenous environmental circumscription and resource limitations of the Greek mainland eventually necessitated expansion and intensification of such surplus-geared specialized agricultural production. In the closing years of the 14th century BC (LH IIIA2) a large-scale engineering project of gigantic proportions was realized in Boeotia, perhaps a joint venture of the neighboring palaces of Thebes and Orchomenos, which effectively transformed the Kopais basin (ca. 20,000 ha) into the most fertile plain on mainland Greece: the submerged marshland was artificially drained by means of an ingenious and complex drainage control system which involved course diversion of six rivers and streams (Kephissos, Melas, Herkyna flowing from the west, Phalaros, Triton, Lophis on the south) from the basin into two wide peripheral canals, the North and the South Canal. These artificial and possibly navigable canals converged in the northeastern edge of the Kopais basin, exactly where Glas is located. The canals were flanked by massive watertight embankments (2 m high and 30 m wide) which were reinforced in places with double Cyclopean revetments bearing roads on their crowns, and were supplied with underground drains and channels leading the water overflow into artificial polders, natural bedrock cavities and sinkholes, or to the bay of Larymna (see area map above). The Kopais drainage project was colossal by both ancient and modern standards: it is estimated that 2,000,000 cubic meters of earth were moved to build the extensive dykes and massive embankments running for many kilometers on the periphery of the basin, more than 250,000 cubic meters of stone were used to revet the embankments, and the water overflow of the main canal is estimated at 100 cubic meters per second. The area once named Arne was still remembered as ‘multi-vined’ in the Iliad (“polystaphylon Arne,” II 507) and Orchomenos as one of the richest kingdoms of the heroic past (Iliad I. 381-382), whose wealth and power was associated in the ancient literary sources with the cultivation of the drained lake (Strabo IX.2.40; Pausanias IX.17.2; Diodorus IV.18.7).

Understanding the dynamics of the monuments with the formation/deformation processes of their related landscape ecosystem and their relative environmental impact is essential for an integrated synthesis. Land development, soil and water management, roads and bridges facilitating circulation and access to farmland, spatial organization, property delineation, and protection of land resources are essential parameters of systematic intensification of agriculture necessitated by a centralized economy.  Such public works of grand scale can only be designed and realized by palatial authorities aiming to appropriate ownership and exert political power. Therefore, land development and water management are also means of property claim which effectively transfered ancestral family/clan/community property rights to palatial management, control, and eventually possession, thus transforming not only landscape but also the dynamics of the socio-economic structure (integrative to coercive).

Glas was, therefore, interpreted as the regional storage center of production and fortified administrative seat and residence of two local rulers who were probably appointed by the palaces of Thebes and Orchomenos to supervise and maintain the complex draining system, organize and regulate the agricultural production, manage taxation, central storage and redistribution of products (crops and wine), and control and defend the satellite peripheral settlements and populations.

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A Brief History of Glas and the Mycenaean World

The first Greeks descended through the Balkans into mainland Greece in ca. 2300/2200 BC (beginning of the Early Helladic III). They settled down mainly in the fertile inland, formed villages and eventually small towns, organized egalitarian societies and developed a distinct regional culture (Middle Helladic) based on agricultural economy and limited trade contacts with the Cyclades and eventually Crete. Rising to power was a long process realized through trade, diplomatic contacts, and constant warfare abroad and at home during the formative Early Mycenaean period (Late Helladic I-IIA/B, ca. 1650-1420/1410 BC). The Mycenaeans proved to be meticulous students: through increasing contacts with Minoan Crete, their trade horizons gradually expanded from the Balkans and Northern Europe to Egypt, the Levant, Cyprus, and Asia Minor. This gradual expansion is documented in the multicultural amalgam of stylistic, iconographic, technical elements and materials of the exquisite finds in the royal Shaft Graves at Mycenae (Minoan, Egyptian, European/Balkan, Hittite, and Helladic influences), the extensive corpus of foreign imports in Greece (orientalia and aegyptiaca), and the increasing Mycenaean exports abroad. Contemporary iconographical evidence (e.g. flotilla fresco from Akrotiri at Thera, silver Siege Rhyton from Grave Circle A at Mycenae) illustrate some of the early military achievements of the rising new power abroad: raiding foreign exotic lands (Egypt?) jointly with the Minoan fleet, sieging and sacking foreign towns. The Mycenaeans were recorded as Ahhiya or Ahhiyawa (~Homeric Achai(w)oi/Achaeans) in Hittite diplomatic documents already by 1420/1400 BC (since the reign of Tudhaliya II) and as Danaja or Tanaja (~ Homeric Danaoi) in Egyptian tribute lists like those of Thutmose III (ca. 1450 BC) and Amenhotep III (Karnak, ca. 1380 BC), or on a statue-base from Kom-el-Hetan (ca. 1380 BC), where Mukanu or mki[n] (~Mycenae) was listed first among mainland sites. In the following decades, the Danaja references in Egyptian sources gradually replaced the earlier Keftiu accounts and depictions of Minoan embassies of the 15th century BC, echoing contemporary archaeological evidence for drastic Mycenaean expansion and simultaneous reduction of Minoan presence abroad. This reversal of the political and military situation in the Aegean in the 14th century BC was triggered by the gradual infiltration and, arguably, military presence of the Mycenaeans on Crete in 1420/1410-1370 BC (Late Helladic IIIA1), in the wake of a devastating earthquake which had leveled the Minoan palaces and left the Minoan world in disarray. The Mycenaean occupation of Crete marked for the Minoans the beginning of the end and for the Mycenaeans the end of the beginning.

The Mycenaean world and particularly Mycenae flourished in the following two centuries (ca. 1420/1410-1200/1175 BC), a period known as Palatial Mycenaean or Late Helladic IIIA/B. The Minoan palaces served as modus operandi for the sociopolitical and economic organization of the rising Mycenaean states. This period is marked by regional centralization of power, state formation, and advanced socio-economic organization, geared towards efficient surplus of local production and overseas trade, both coordinated and regulated by the palace administration and sustained by palatial bureaucracy (Linear B). At home, the Mycenaean palaces were fortified into citadels, large-scale public works were carried out (such as the Kopais drainage system, the Tiryns dam, the Pylos bay) and production was systematized. Abroad, the Mycenaeans assumed control over the Minoan colonies and trade outposts in the Aegean and Eastern Mediterranean, and further expanded to the east and west, thus firmly establishing their own trade network and successfully succeeding the Minoans in the overseas trade (Mycenaean thalassocracy). A vital sector of the centralized palatial economy and sociopolitical structure, overseas trade required not only a tight network of island and coastal outposts, but also highly effective diplomacy. Diplomatic contacts involved exchange of royal letters and gifts, ambassadors, official royal visits, treaties and bilateral agreements. Certain Mycenaean palaces like Mycenae, Thebes, and Pylos maintained a protagonistic role in overseas trade of luxury/prestige goods and diplomatic contacts at the highest level. The organized trade of luxury/prestige goods which required a well-coordinated control mechanism for acquiring raw materials and producing artifacts or other products to be marketed in exchange, afforded luxury to the elite, while the king’s special access to external prestige goods reinforced royal image and authority. The exquisite artifacts found in tombs in the area of Mycenae, Pylos, and Thebes, as well as the great variety of precious materials recorded in palatial inventory lists and yielded in the archaeological contexts of palatial workshops further document privileged connections and constant contact with Egypt, Anatolia, and the Near East, closely following the successful Minoan archetype. The effective regulation of production and organization of the socio-economic life by the Mycenaean palatial administration was followed by a long period of prosperity and stability which led to population growth, as indicated by the rapid increase in the number and size of the Mycenaean settlements and cemeteries, and their geographical distribution in the homeland and abroad in the 13th century BC.

In the course of the 12th century BC, combined, rapid and dramatic changes in several socio-economic, political, and environmental variables affected a fragile balance and triggered a chain reaction of progressively magnified and multiplied cumulative effect, resulting inevitably in a catastrophic systems collapse which caused the decline and fall of the Mycenaean world. The latter half of the 13th century BC was marked by intense and frequent seismic activity in certain regions of mainland Greece (two major destruction horizons were recorded in the Argolid in ca. 1240 BC and 1200/1180 BC). These ‘earthquake storms’ caused severe structural damage, local fires, disorganization and disarray, immediate allocation of manpower for costly and energy-consuming repairs, and hence disruption of economic life and trade. A typical example of a low-diversified surplus-geared economy without sufficient alternative resources to fall back to, Mycenaean economy could hardly withstand and recover from temporary setbacks or survive the combined impact of various factors, such as natural catastrophes (earthquakes, extensive fires, severe climatic conditions, droughts, crop failure), ecological overexploitation, and palatial military/financial overextension. Natural disasters may have acted as catalysts for a catastrophic system failure, inflicting the final blow to the system: they eliminated short-term food supplies, destroyed high-yield specialized agricultural production and livestock, and consequently upset dependent satellite industries (flax, textile, wine and oil industries), disrupted trade, damaged the infrastructure, and demoralized the population. Inevitably, civil unrest, internal wars and raids by starving populations on less affected regions followed, causing decentralization and political fragmentation, dissolution of the socioeconomic nexus, severe depopulation of vital areas, and emigration to the coasts, islands, and overseas.

The three major Boeotian palatial centers, Thebes, Orchomenos, and Glas were destroyed by fire slightly earlier than Pylos, sometime in the advanced LH III B2 (ca. 1220/1200 BC), most likely by enemy action; Thebes and Orchomenos continued to exist and were reoccupied on a smaller scale, whereas Glas and the Kopais drainage works were completely destroyed and abandoned. This regional destruction may be associated with internal conflicts between the Mycenaean palaces of Thebes and Orchomenos, or, alternatively, may be attributed to external aggression by Mycenaeans from the Argolid. Both versions have been well-preserved in mythology, literature, and folk memory: according to mythical tradition, Thebes attacked and destroyed Orchomenos, with Heracles blocking the sinkholes and flooding the lake (Strabo IX.2.40), and the Argives repeatedly campaigned against and finally besieged Thebes (Seven against Thebes, and the Epigonoi); accordingly, the palace of Thebes (Kadmeia) was not included among the Boeotians in the “Catalogue of Ships” (Iliad II.494-516), a separate and possibly much older poem later embodied in the Iliad, and the king (wanax) of Thebes did not participate in the Trojan War which allegedly took place shortly after the destruction of Thebes.

The movement of peoples (called “Sea People” in the Egyptian sources) and the subsequent widespread destructions in Asia Minor and the Levant in the beginning of the 12th century BC led to the collapse of the Hittite Empire, but also eradicated the Mycenaean trade outposts and colonies in the East. The loss of their off-shore trade posts disrupted foreign trade and paralyzed the overseas sector of the centralized palatial economy, which, given the peripheral geopolitical location of Mycenaean Greece, depended on the contact with the main zone of exchange through intermediaries. That must have been another terrible blow to the already distressed and staggering palatial economy, forcing it to fall back on domestic production and isolation. In the course of the 12th century BC many small settlements in several regions (i.e. Argolid, Achaia, Attica, Euboia, Thessaly, islands, Cyprus, Asia Minor) sustained continuity and achieved substantial revival with their limited production and trade capacity, despite the general decline and fragmentation; on the contrary, the citadels of Mycenae, Tiryns, and Thebes, though partially repaired and reoccupied, and despite attempts for economic revival, never fully recovered and were gradually abandoned. The deterioration of the same system that had strengthened central palatial authority through the coordination and regulation of political and socioeconomic life resulted inevitably in the dissolution of the palaces’ power, decentralization and fragmentation of Mycenaean Greece. It appears, therefore, that it was the Mycenaean elite and its diagnostic, key elements (palatial administration and writing, foreign contacts and luxury goods, monumental art and megalithic architecture) that suffered the most from the system meltdown, whereas at a lower level the impact was less direct, and the core of Mycenaean society changed more gradually (in terms of basic material culture and cultural practices) and evolved organically into the Early Iron Age Greece.

 

History of the Excavations

The citadel of Glas was partially excavated (central enclosures) by T.A. de Ridder (1893), I. Threpsiades (1955-1961) and Sp. Iakovidis (1981-1983, 1990-1991). The exemplary publication by Sp. Iakovidis (1989, 1998, 2001) of earlier and recent excavations in the Mycenaean citadel of Glas and the synthesis of archaeological, geoarchaeological, and historical evidence established the form, function, organization, importance and uniqueness of this archaeological site. Recently, however, the archaeological plan of Glas changed drastically as a result of a systematic geophysical survey (2010-2011) which was conducted under my direction and the auspices of the Athens Archaeological Society, and was generously funded by Dickinson College and the Institute for Aegean Prehistory (INSTAP). The geophysical survey was carried out by a team of archaeologists, graduate and undergraduate students, and teams of specialists from INSTAP, led by Prof. A. Stamos, and the Exploration Geophysics Laboratory of the Univ. of Thessaloniki, led by Prof. Gr. Tsokas. The geophysical survey of Glas changed the archaeological picture of the site but also questioned the established interpretations of its function and purpose. The final results of the systematic geophysical survey are being currently prepared for publication in an international archaeological journal.

Posing the Problem: fort or fortified settlement?

The form and layout of the citadel of Glas, as published by Iakovidis, did present certain spatial peculiarities:

  • only one third or less of the total area of the citadel (49.5 acres or 20 ha) was occupied by various buildings and structures, whereas no other ruins were traced anywhere else in the citadel (V);
  • the northern and southern enclosures (II, III) surround and demarcate groups of buildings within the citadel, delineate their spatial arrangement, differentiate between storage areas and administrative or residential sectors, and isolate these sectors from the remaining (arguably empty) fortified area for some elusive reason;
  • the northeastern enclosure (I) contains no visible ruins, bears no definite entrance (except perhaps a couple of gaps in the peribolos wall that may have provided access), and its use remained obscure;
  • the eastern enclosure (IV) is separated and isolated from the remaining fortified area, being apparently accessible only from outside the walls through the eastern entrance of the double Southeast Gate, and its precise use –being arguably void of any visible ruins– remained unclear.

The systematic geophysical survey of the citadel of Glas focused mainly on unexplored sectors aiming to produce new architectural evidence and further define the topography, layout, and use of the citadel, as well as trace earlier occupation phases of the site. The project involved remote-sensing investigation of the following areas:

  • the northern and southern enclosures (II, III) to trace potentially other Mycenaean buildings, subsidiary structures, storage areas, retaining walls, terraces, courtyards, and roads;
  • the vast ‘void’ fortified area (V) to detect potentially a Mycenaean settlement within the citadel and/or earlier occupation remains on the hill of Glas (as suggested by scattered Neolithic pottery and stone tools);
  • the northeastern enclosure (I) and the eastern enclosure of the citadel (IV) to detect potentially Mycenaean ruins or diagnostic geomagnetic traces of human activities related to the use of land (e.g. cultivation, extensive burning, metallurgy, walking surfaces and artificial terracing).

 

Re-discovering Glas: Methods and Results of the Geophysical Survey

Aside from certain areas of the citadel (plateaus or steep slopes) that have been severely eroded down to the natural bedrock, the natural fill of the hill is approximately 1 m deep or deeper, when it contains artificial fills, archaeological layers, and ruins. The geophysical remote-sensing survey was conducted with a Ground Penetrating Radar (GPR) and a Fluxgate Gradiometer. Both types of equipment produce detailed images to a depth of 2 m. The portable geomagnetometer (Geoscan FM256 Fluxgate Gradiometer processed with Geoplot software) detects positive or negative anomalies in the magnetic field of the Earth and records them as dark grey or black features (positive magnetic anomalies potentially reflecting ditches, backfills, clay floors, intense firing, burnt mudbrick, metal finds) and light grey or white features (negative magnetic anomalies possibly indicating stone walls, pavements, stone piles). The fluxgate gradiometer offers several advantages, namely speed of geoprospection (on average one acre per day), portability, and use on irregular terrains or over low vegetation, as it does not involve any contact with the ground; on the down side, however, the gradiometer reproduces two-dimensional geoprospection images of the magnetic traces which are conflated and compressed on a single plane without any real indication of depth. On the other hand, the GPR (Subsurface Interface Radar or SIR-2000 with a 400MHz antenna) is considerably slower, as it is wheeled on the ground and, therefore, requires extensive preparatory work in the form of surface clearing; furthermore, it involves collection of data in two perpendicularly-oriented datasets with repeated passing on closely-spaced transects of an orthogonal grid to better detect subsurface features. The GPR, however, generates three-dimensional geoprospection images of the buried remains (stone walls and floors, rubble piles) with precise depth scale. The vast size of the citadel, the occasionally rough terrain and wild bush vegetation on the hill, and the need for time efficiency dictated a well-planned combination of both methods: at first, extensive and generalized use of the gradiometer for fast and immediate results, followed by targeted use of the GPR on select areas or sectors that present strong or diagnostic geomagnetic traces. Such combination of these two methods proved exceptionally successful and precise at Mycenae (2003-2013), where the systematic geophysical survey detected, recorded, and plotted extensive remains of the Lower Town outside the citadel.

Other geoprospection methods, such as Electrical Resistivity and Quickbird satellite panchromatic and multispectral imagery were also successfully employed at Glas. Geodetic measurements, the plotting of the survey grid, and the detailed mapping of all buried remains and features were done with the aid of Differential Global Positioning System (GPS) and Total Station. The topographical, archaeological, spatial, and geophysical data will be embedded in the G.I.S. database of Dickinson College and 3-D digital maps.

The geophysical survey focused on the two large northern enclosures (I, II), the western/central sector (V), and the eastern sector of the citadel (IV). The indications from the enclosures were rather poor due to severe ground erosion on the summit and the slopes. The results, however, from the western/central and eastern sectors of the citadel and the cyclopean fortification wall were impressive. Several buildings were detected, including three large, well-built complexes (D, F, J) consisting of long rectangular buildings with several large rooms. Clusters of walls, rooms, small buildings, and silos (E, G, K, N) were located between the large complexes, occasionally abutting on the inner face of the cyclopean wall.

In the northwestern part of the citadel lies the West Building (D) with an E-W orientation. This building complex consists of an oblong rectangular structure divided by at least four parallel partition walls into a row of five rooms, with the central two rooms being of equal size. Another parallel room and few wall remains were traced immediately south of the West Building and may belong to the same complex. A cluster of scattered rooms (E) were further explored in the vicinity of the West Gate, which may belong to a residential quarter, as indicated by their small size, simple plan, different orientation, and relatively poor construction. Among them, immediately north of the West Gate, lies a two-room (guard house?) abutting on the inner face of the western cyclopean wall (West Gate Building), while, farther south of this gate, four semi-circular rooms (silos?) were built against a recess of the western cyclopean wall.

The southwestern area of the citadel is accessible from both the West Gate and the South Gate, and is dominated by the plateau of a low hill, which is occupied by a large building complex and possibly enclosing other important structures as well (P, Q, R). The Southwest Complex (F) consists of at least three parallel, oblong rectangular wings of similar ground plan and same orientation as the West Building, divided by parallel partition walls into rows of large rooms. The complex has solid walls constructed of roughly dressed, large blocks. The size, construction and ground plan of the Southwest Complex and the West Building recall the two parallel, long storage buildings in the southern central enclosure (Sector III: B, C). Another cluster of scattered buildings, rooms, and wall remains (Southwest Cluster, G) were detected to the southeast of the Southwest Complex, which may belong to a residential quarter, as indicated by their relatively small size, simple plan, different orientation and construction.

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glaspic3generalplanThe Glas site general plan. Credit: Antonia Stamos, after Iakovidis

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In the southern sector of the cyclopean wall, approximately midway between the West and the South Gate, two sally ports were discovered, thus raising the number of gates in the citadel of Glas to six. The southwest sally port (H) is 3 m wide and gives access to a low terrace in front of the wall that affords unobstructed viewing of the plain to the south. The other sally port (I), located 60 m to the east, facilitates safe descent to the plain below via a narrow and steep staircase that was partly built and partly hewn out of the bedrock, providing access to a cave at the base of the rocky hill. Between the two sally ports were identified five narrow rectangular niches (1 m x 3 m) opening into the outer face of the wall with no access from within the citadel, but once accessible possibly through trapdoors from the upper part of the wall. These niches were likely sentry boxes associated with the guarding of the adjacent sally ports. Two more niches were located in the northern and western sectors of the cyclopean wall. Finally, traces of large rectangular rooms (casemates or towers) were detected within the thickness of the cyclopean wall in the western sector (100 m north of the west gate), in the northeastern sector (70 m east of the north gate), and in the southwestern sector (200 m west of the south gate and east of the sally ports).

The geophysical survey expanded eventually in the central and the eastern part of the citadel with equally impressive results. In the central area (Sector V) lies the South Complex (J), which consists of a large building with a NW-SE orientation, flanked by a parallel oblong rectangular wing. Farther to the northeast of this complex were detected a cluster of scattered buildings, rooms, and wall remains (Central Cluster, K).  This cluster includes a multi-room building (Central Building 1), an oblong rectangular wing of another building with an E-W orientation (Central Building 2), and a cyclopean cistern (L), partly built and partly hewn out of the bedrock, which is associated with a long retaining wall with a N-S orientation. The oblong wings of the central buildings, though smaller in size, are similar to those of the West Building and the Southwest Complex.

The eastern part of the citadel (between Sectors IV and V) preserves a surviving corner of the cross-wall that ran at an angle from the northeastern course of the cyclopean wall to the central tower of the double Southeast Gate.SE orientation, flanked by a parallel oblong rectangular wing. Farther to the northeast of this complex were detected a cluster of scattered buildings, rooms, and wall remains (Central Cluster, K).  This cluster includes a multi-room building (Central Building 1), an oblong rectangular wing of another building with an E-W orientation (Central Building 2), and a cyclopean cistern (L), partly built and partly hewn out of the bedrock, which is associated with a long retaining wall with a N-S orientation. The oblong wings of the central buildings, though smaller in size, are similar to those of the West Building and the Southwest Complex. This cross-wall separated and isolated the eastern part of the citadel (Sector IV) which was, thus, accessible only from the eastern entrance of the double Southeast Gate. This isolated eastern sector of the citadel contained scattered structures (East Cluster, N), including several retaining walls for terracing with an E-W orientation, walls and rooms of various buildings, and at least ten circular structures (2.5-3 m in diameter), possibly silos(?). Six of these circular structures are located in the center of the eastern sector, while four more were traced near the northeastern course of the cyclopean wall. Outside the eastern course of the cyclopean wall was found a built staircase (East Staircase, O); furthermore, several caves and sinkholes were located, mapped, and briefly surveyed at the foot of the rocky hill of Glas.

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glaswestbuilding

Credit: Antonia Stamos

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glasswcomplex

Credit: Antonia Stamos

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glassallyports

Credit: Antonia Stamos

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glasstaircase

Credit: Antonia Stamos

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glassilos

Credit: Antonia Stamos

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glascaveCaves at Glas. Credit: Antonia Stamos

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glasgates

Credit: Antonia Stamos

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Microsoft Word - Document6.docx

Credit: Iakovidis

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glasquickbird

Credit: Antonia Stamos

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Assessing the Importance of Glas

The old archaeological picture of Glas changed drastically and, consequently, the traditional interpretation of the citadel as a fort is now being challenged. So far, the citadel of Glas presented the layout of a fort with enigmatic spatial peculiarities; our geophysical survey established that the citadel area was not left void of structures outside the central enclosures after all, but was apparently covered with many buildings of various uses, including several large, well-built complexes, extensive residential quarters and clusters of buildings stretching between these complexes, circular structures (silos?), a cistern, sally ports, staircases, retaining walls and terraces. Glas, therefore, may not have been merely a fort maintaining the drainage works and managing agricultural production; apparently, there is a whole city within the walls, whose identification raises interesting questions about Mycenaean political geography. The Homeric poems (Catalogue of Ships) and later literary sources list several important Mycenaean towns in the Kopais area (Arne among them); could Glas be identified with one of these towns? Alternatively, is it possible that Glas was a third, unknown so far, regional palatial center? If so, we would need to explore the dynamics between this regional administrative center and satellite peripheral settlements in the Kopais basin, and define the relations between the palatial centers of Glas, Orchomenos and Thebes in the framework of the Mycenaean political geography. Finally, a far more intriguing hypothesis: what if Glas is Orchomenos? Is it possible that the palatial authorities of Orchomenos moved their palace and settlement to the most strategically important and highly defensible location available after the draining of the marshland of Kopais in the 13th century BC, while using the original site of Orchomenos mainly as an ancestral burial place?

Unfortunately, despite such astonishing discoveries and fascinating prospects, the state-approved, five-year, systematic geophysical survey of Glas was abruptly suspended by the Athens Archaeological Society in 2012 after only the first two years of operation, on grounds of complete lack of interest in further exploring the site. The systematic investigation of the Mycenaean citadel of Glas will hopefully continue and must intensify in the next few years to unearth convincing answers to all these intriguing questions. The geophysical survey and excavation of this monumental site can offer field training to hundreds of undergraduate and graduate students through the D.E.P.A.S. project of Dickinson College, great opportunities for faculty/student collaborative research, doctoral theses, interdisciplinary collaboration and leading scholarship for scholars and researchers from around the world.

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For information, see the Project website: http://glas-excavations.org

Contact information to participate or donate to the project: contact Prof. Chr. Maggidis at [email protected] and (717) 245-1014

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The Hidden Art of Angkor Wat

Julie Masis is a freelance journalist based in Cambodia.  Her stories have appeared in the Christian Science Monitor, the Guardian, the Boston Globe, Science magazine and in other publications.

The musicians are floating in space. The middle of their bodies is missing and only their conical hats and the cloth that covers their folded legs allow the viewer to piece them together into human shapes. The instruments are more clear: the xylophone, the gongs, drums, and something that looks like a trumpet. Below the orchestra are seven flowers, their purpose still unclear.
 
This is one of more than 200 images that were recently revealed on the walls of Angkor Wat, Cambodia’s most famous tourist attraction. The images have probably been there for hundreds of years, but until a cave painting specialist decided to take a closer look, no one paid much attention. Of the ancient orchestra, the only part that anyone could see on the grey wall was a gong – if anyone could determine what it was, that it is – for it may as well have been a donut hanging on a string.
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angkorwatpaintingstan4

Plan of Angkor Wat central structure/complex, showing locations of the paintings. The paintings on the outer wall are not marked. Courtesy Noel Hidalgo Tan and Antiquity Publications Ltd.
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angkorwatpaintingstan13Above, as seen with naked eye on the structure wall, and below, the computer-enhanced version: The pinpeat or Khmer orchestral ensemble, consisting of various gongs and drums. The hanging gongs on the left are visible without enhancement. Courtesy Noel Hidalgo Tan and Antiquity Publications Ltd.

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“I’m very accustomed to looking for traces of paint on rocks,” explains Singaporean archeologist Noel Hidalgo Tan, a Ph.D. student at Australian National University, who found the images after volunteering on an excavation project at Angkor. “On one of the lunch breaks, I was wandering around the temples, and I saw traces of red paint on walls and decided to take a few photos.”
 
When Tan ran the photos through a special computer program that enhances contrast, he saw more than 200 black and red pictures – approximately half of which had never been seen before, he said. His research was published in the UK journal “Antiquity” this year. (See Image Gallery below for selected images).
 
“[After the computer analysis] I realized the paintings were quite elaborate – and you can barely see anything on the walls. I didn’t think it was a new discovery. I thought everyone knew about the paintings,” he said.
 
But it turned out that while some of the paintings were known to the local people, they had never before been systematically documented.
 
“It’s a kind of art history that we didn’t have previously,” says American archaeologist Miriam Stark, who is the co-investigator on the Greater Angkor project. “Finding this kind of patterning beneath our noses is a great contribution.”
 
The images ranged in size from a large 2 by 5 meter painting depicting the Buddha on the ancient temple’s ceiling to smaller images that were probably left behind by pilgrims rather than professional artists. Here computer analysis revealed men on horseback, elephants, lions, horses, buildings, and boats  – as well as Angkor Wat itself. Still other images Tan describes as graffiti: they include handprints. Some pictures were hard to interpret. “There are figures and I don’t know what they mean,” Tan says.
Much research remains to be done to determine the age of paintings. Because the likeness of the Buddha is seen in a large painting—the image depicts a man seated in a meditation pose with something that looks like a crown on his head—Tan believes that the oldest images may go back to the 16th century, or the reign of Cambodian King Ang Chan I, who moved his capital back to Angkor and began transforming the Hindu temples into Buddhist sites.
 
“That is our best estimate currently,” he says. “It seems logical.”
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angkorwatpaintingstan3The computer-enhanced Buddha image. Courtesy Noel Hidalgo Tan and Antiquity Publications Ltd.

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Another clue comes from the image of a European sailboat—there were no sailboats in Angkor, only row boats. The sailboat looks like it might be from the 18th century, the researchers say. And, Tan says, we know that the images are at least a hundred years old because some of them can be seen in French photographs from the 1920s.
 
One way to find out for sure how old the paintings are would be to carbon-date the paint. However, this would only work if the paint was made from an organic material, such as a plant resin. The pigment in the pictures hasn’t been analyzed yet to determine what it is made from, and no one has stepped forward to carbon-date the paint yet, Tan said.
 
The orchestra
 
Tan says his favorite image is the ancient orchestra—a picture that also attracted the attention of Patrick Kersale, a French ethnomusicologist who rebuilds historic musical instruments.
 
According to Kersale, the image is the oldest depiction of a xylophone that has ever been seen in Cambodia. The xylophone was unknown during the height of the Angkorian empire, and must have been imported to the region from Malaysia in the centuries after the decline of Ankgor, Kersale says.
 
“You can find musical instruments on the bar reliefs [of Angkor] from the seventh to the 13th century. Most musical instruments [in Angkor] came from India,” he said. “But in the 16th century, we have a new instrument not coming from India, but coming from Malaysia. There is no xylophone in India.”
 
The trumpet is also intriguing, as there are no trumpets in modern-day Cambodian orchestras—although the instrument existed in Angkor in the 9th century, Kersale said. In ancient times, the trumpet (which is visible on Angkor’s bar reliefs and has the shape of a sea monster, Kersale says) may have been used to call worshippers to religious ceremonies, he said.
 
“This is the first time we see a long trumpet [in Cambodia]” he said. “It looks like a trumpet we find in the Kathmandu valley of Nepal.”
 
Finally, the gong chime in the picture has eight gongs, which is also unusual. Currently, Cambodian orchestras use gong chimes with 16 gongs, while the ones during Angkorian times had fewer than eight.
 
“Maybe this instrument evolved from the 16th century,” Kersale says.
 
The orchestra itself resembles a type of musical ensemble that traditionally plays at Cambodian funerals.
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angkorwatpaintingstan1The Khmer orchestral ensemble (computer-enhanced). Courtesy Noel Hidalgo Tan and Antiquity Publications Ltd.

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angkorwatpaintingstan14Pinpeat instruments in Siem Reap. Note the similarity of the kongvong (gongs set in a semi-circular frame) and roneat (metal or bamboo xylophones) to the forms in painting above. Courtesy Noel Hidalgo Tan and Antiquity Publications Ltd.

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Kersale is currently working on rebuilding the orchestra from the painting, and plans to hold regular concerts at a pagoda in Siem Reap, the touristy town near Angkor Wat, starting in November. All the instruments will be built in Cambodia, except for the trumpet, which he plans to bring from Nepal, since Khmer instrument-makers no longer have the skills to make a trumpet, he said.
 
While one can rebuild ancient instruments, it’s unfortunately impossible to recreate the melodies that Khmer musicians produced on these instruments hundreds of years ago, Kersale said.
 
Is it really a new discovery?
 
According to Im Sokrithy, the head of the communications department for Cambodia’s Authority for the Protection and Management of Angkor (APSARA), the paintings have always been known to the local people and could be seen with the naked eye.
 
“The paintings existed there. The local people know [about them], the Khmer researchers know, but we had no opportunities to publish it in the world-wide journals because the sculpture dominated everything,” he said. “The value (of the paintings) cannot compare with the value of the sculpture. That’s why we ignored it.”
 
Computer analysis only made the images clearer and more beautiful, he says.
 
“One image might be of two horses, but with the naked eye we cannot see that there are two. We can only see one,” he says. “Or some image might show a big elephant—with the naked eye we can see just a shape, but with the computer we can see some ornaments, some details on the head of the elephant.”
 
But Damian Evans, an Australian archaeologist who works in Angkor, said Tan’s work was very significant.
 
“Certainly if people had seen all the paintings then they never published that information, so the key thing really is that no one had gone through and done the proper documentation and analysis before,” he stated.
 
Meanwhile, Hawaii-university’s archaeology professor Stark compared Tan’s research to the impact 19th century French traveler Henri Mouhot had when he “discovered” Angkor Wat. While it’s true that Angkor Wat was known all along to the local residents in Cambodia, when Mouhot wrote about it, he revealed it to the world. That’s why Tan’s work is “a huge contribution,” she said.
 
“Only the boat paintings were clearly visible before. The only attention was by nautical archaeologists,” she said. “To convert some sort of knowledge to this academic currency makes it available to the rest of the world, makes it really important.”
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Image Gallery
 

angkorwatpaintingstan5One of the known boat paintings on the outer wall of Angkor Wat. Note the red paint on the apsara carvings, which is commonly seen in similar carvings inside the temple. 

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angkorwatpaintingstan6Enhanced boat painting

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angkorwatpaintingstan7Enhanced painting of elephants

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angkorwatpaintingstan8Black drawing of a zoomorph with scales and multiple legs

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angkorwatpaintingstan9Enhanced line painting of a figure with hands set in a praying position, possibly a preliminary sketch of an apsara

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angkorwatpaintingstan10Black line drawing of Hanuman, the monkey king

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angkorwatpaintingstan11Enhanced painting of a stepped pyramid structure, possibly a depiction of Angkor Wat itself. Note the mirror image of the building in the lower register, as if depicting a reflection on water. 

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angkorwatpaintingstan12Possible depiction of a stupa

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angkorwatpaintingstan1A pinpeat or Khmer orchestral ensemble, consisting of various gongs and drums. The hanging gongs on the left are visible without enhancement.

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angkorwatpaintingstan15Elaborate scene featuring riders on horses travelling between two possible temple structures

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All images courtesy Noel Hidalgo Tan and Antiquity Publications Ltd.
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A R T I C L E  S U P P L E M E N T 
 
Southeast Asian Rock Paintings
 
Other than revealing the hidden paintings on the walls of the world’s largest religious monument, Singaporean archeologist Noel Hidalgo Tan has been studying prehistoric rock paintings all over Southeast Asia. In fact, he is the expert on Southeast Asian cave paintings.
 
“I got interested in rock art because no one was really studying rock art. It seemed like a good area of research to go into,” he said. “There are paintings on rocks throughout Southeast Asia, but no one bothered to study them before.” 
 
Tan is currently doing research on a number of sites in Cambodia, including in Phnom Kulen, where he is studying red images on rock shelters depicting fish, cows and people. He believes that the paintings might go back thousands of years.
 
“In Australia, we have paintings that are 40,000 years old. Everyone who came to Australia had to make their way through Southeast Asia—so you expect to find cave paintings in Southeast Asia as old as in Australia,” he says.
 
In Cambodia, cave paintings have only been found in the last ten years, because no one has been looking. Everyone was focused on the temples of Angkor, Tan says.
 
The images on Cambodian rock ledges are red and black—and researchers know that the black paintings are younger because they are on top of the red pictures, Tan says. This, according to Tan, is a Southeast Asian trend: black paintings are always on top of the red ones.
 
Interestingly, the images Tan found on the walls of Angkor Wat were also done in red and black.
 
“That’s an interesting question—that the colors of Angkor Wat are the same as colors on the cave walls,” he said. “It would be interesting to compare.”
 
So what’s the difference between European and Southeast Asia rock paintings?
 
While both might go back 40,000 years, the European paintings are often found in deep and dark caves, while the Southeast Asian images are on rock ledges and cliffs, Tan said.
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Kurdistan’s 21st Century ‘Gold Rush’

 

bradshawbysebastianmeyer

Rebecca read BA Ancient History and Classical Archaeology at the University of Warwick, writing her first-class thesis on the relationship between the Greek city- states and Achaemenid Persia in the sixth century B.C. She then went on to complete her MPhil in Egyptology at the University of Cambridge, specialising in the commission, design and production of religious art in Egyptian Nubia (modern Sudan). 

From 2010-13 Rebecca lived and worked as an archaeologist in the Sudan, Egypt, Bulgaria and the UK for institutions such as the British Museum, the University of Cambridge, the University of Durham and the Austrian Archaeological Institute. She also undertook work for the National Trust, the Fitzwilliam Museum, Cambridge, and the British Museum. 

In early 2012 Rebecca began working with the University of Cambridge in Erbil, the capital of Iraqi Kurdistan, and has been back several times subsequently to explore the region and conduct research in Sulimaniyah, Iraqi Kurdistan’s liberal second city. Since 2013 Rebecca has also been the Tour Lecturer for The Traveller tours to Iraqi Kurdistan. As an Arts and Humanities Research Council (AHRC) doctoral scholar, Rebecca is now conducting her PhD research into the multi-faceted social role of archaeology in shaping Middle Eastern communities and conflicts. Rebecca currently lives in Cairo.

Author Photo: Examining the bridge at Kifri, Iraq. Photo by Sebastian Meyer.

Following his excavations at Babylon in the early 1800s, the French explorer and antiquarian Claudius Rich travelled north to Mosul and the Kurdistan region of present-day Iraq. Almost 3,000 years before Rich’s arrival, the region’s plains and foothills had been the center of the ancient Assyrian empire, and he was intent upon rediscovering its illustrious capital cities: Assur, Nineveh, Dur-Sharrukin (Khorsabad) and Kalhu (Nimrud). Like many of his contemporaries, Rich was spellbound by the history and culture of ancient Assyria, and had a particular interest in Nineveh, whose fiery destruction in 612 B.C. had been prophesized in the Old Testament by Nahum ‘the Elkoshite’. Indeed, under the auspices of the Ottoman Sultan, Rich spent much of the 1820s unearthing the ruins of the great North Palace at Nineveh built by King Ashurbanipal (r. 668–627 B.C.), returning only sporadically to Europe to showcase freshly-excavated seals, statues and stele.

Rich’s success inaugurated an archaeological ‘gold rush’ in Mosul and the Kurdistan region, and in the remaining years of the 19th Century, Dur-Sharrukin and Kalhu were also rediscovered and excavated. In 1843, Pierre Botta revealed the majestic residences and temples of Dur-Sharrukin, the city built by King Sargon II (r. 721–705 B.C.) Just two years later, Austen Henry Layard exposed the remains of highly decorated palaces and administrative buildings bearing the name of King Ashurnasirpal II (r. 721–705 B.C.), and identified them as part of the ancient city of Kalhu. Then finally, in the opening years of the 20th Century, Walter Andrae discovered the remains of the temples, palaces, and distinctive double walls of Assur, the original capital of the Assyrian dynasty.                    

To celebrate and publicise their achievements, Botta, Layard and Andrae transported many excavated objects to Europe and installed them in exhibitions in the British Museum and the Louvre. The luxurious displays intensified the public’s fascination with the aesthetic of Assyrian art and architecture, admired for its beautifully executed reliefs and monumental dimensions. On account of the scholars’ success it seemed certain that archaeological exploration would continue, and the world held its breath and waited to see what other ancient treasures archaeologists would unearth.

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Archaeology, politics and warfare

Sadly, archaeology has always been vulnerable to the whims of politics, and significant upheaval in the region resulted in the end of this ‘gold rush’. Over the next one hundred years archaeological investigation necessarily became opportunistic rather than inevitable. In the first half of the 20th Century, the World Wars relegated archaeology as a low priority (though there existed a hybrid breed of ‘diplomat-cum-archaeologist’, personified by T.E. Lawrence and Gertrude Bell) and completely reshaped the geopolitical landscape. The Ottoman Empire was destroyed, a new Middle East was created, binding Kurdistan to the doomed Kingdom of Iraq, which emerged only briefly before its British-installed king, Faisal II, was overthrown. Things were little better for Kurdish archaeology in the new Republic of Iraq, as President Saddam Hussein actively prohibited foreign archaeological investigation in Kurdistan and, with his Ba’athist government, incited a series of events that paralyzed the region. The Iran-Iraq War (1980–88) bankrupted Iraq, devastated Kurdistan, and catalyzed a refugee crisis of astonishing magnitude. In a move to boost Iraq’s diminishing post-war funds, Iraq’s invasion of Kuwait then provoked the Gulf War (1990–91), which crippled the economy even further and triggered Western intervention. Amidst such violence, archaeologists could only watch from afar, and wait for the chance to one day again explore Kurdistan’s tantalizingly rich archaeological landscape.        

It took the region a further twenty years to recover from these events, and for the full force of the 1991 ‘No Fly Zone’ over Kurdistan to take effect. After the withdrawal of Saddam Hussein’s Ba’athist army from Kurdistan, Kurdish political parties eagerly filled the vacuum and created a ‘semi-autonomous’ state. Quietly at first, but with increasing confidence in recent years, Kurdistan has emerged as a safe haven, a ‘bubble’ in the midst of a region otherwise brimming with violence and repression. In response to this transition, a number of pioneering archaeological teams have begun on-site work, and their success has encouraged many others to follow. The steady influx of foreign practitioners has created a new, dynamic and multi-national archaeological community whose collaborative work with the Kurdistan Regional Government (KRG) has fostered a 21st Century archaeological ‘gold rush’ in Kurdistan………..

Excavations in Erbil

kurdistanDSCN0056One team has been conducting excavations at the 32-meter high tell in the centre of Kurdistan’s capital city, Erbil (known as the ‘citadel’). Tells like these are a common feature of the Fertile Crescent, and their height is attributable to the continuous rebuilding of settlements in the same place, over an extended period of time. As such, tells can often offer information about society and culture over thousands of years, rather than during a single epoch. Indeed, according to popular rhetoric, Erbil citadel is the longest continuously inhabited city in the world, and preserves the stratified remains of over 8,000 years of settlement (c. 6,000 B.C.–present day). Ancient inscriptions and surface ceramics certainly suggest that the citadel has been a site of habitation since the Neolithic Ubaid period (c. 7,000–4,000 B.C.), but this is one of many questions the archaeologists seek to answer through excavation. Considering this ‘layer-cake’ treasure of ancient culture, over the past five years the KRG has been implementing the ‘Erbil Citadel Revitalization’ project, which includes archaeology as one of its main components. The excavations themselves are designed and directed by a collaborative team of archaeologists from the University of Cambridge and the Kurdish High Commission. Dr. Mary Shepperson, an archaeologist with the team, explains that since excavation began in 2013 they have discovered a 30-meter stretch of city wall below the north western edge of the citadel mound, along with decorated ceramics and other materials. Further scientific corroboration is needed before solid facts can be stated, but Dr. Shepperson hypothesizes that “there are at least six phases of rebuilding and repair, [and] the upper phase is certainly Ottoman.” There is little doubt in the minds of archaeologists that the city wall will be accompanied by even greater discoveries, because inscriptions from the 9th century B.C. record that Erbil citadel was an important religious center of the Assyrian empire, called Arba-Ilu (‘the Four Gods’). We also know that seven hundred years later, in 331 B.C., Erbil was the city to which Darius III fled after his defeat by Alexander the Great at the Battle of Gaugamela. Thus the historic significance of Erbil citadel led in June 2014 to its recognition by UNESCO as the first World Heritage Site in Kurdistan. The imposing visual grandeur of the citadel certainly supports this new title, as it is crowned with a distinctive perimeter ‘wall’ made up of adjoining 20th century Ottoman courtyard houses which tower over the modern city as a powerful symbol of this ancient region. (Pictured above: On the northern corner of the citadel, Mr. Sangar Mohammed Abdullah, archaeologist with the High Commission for Erbil Citadel, discusses the excavations with the author. Photo by Rebecca Bradshaw).  

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Archaeological Office, Erbil Citadel. Two decorated Abbasid-period ceramics. March 2014. Photo by Rebecca Bradshaw

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A series of surveys

Other archaeological teams are arriving in Kurdistan to conduct surveys and discover unidentified sites in Erbil and Duhok provinces. Departing from the dramatic palace- and temple-based archaeology practiced by their predecessors in the 19th and early 20th centuries, many 21st century archaeologists are pursuing the full spectrum of sites, regardless of their size. Harvard University archaeologist Prof. Jason Ur states that this is because many “parts of [Kurdistan] are important for the study of early civilizations, but were nearly completely unknown.” Prof. Ur is the director of the Erbil Plain Archaeological Survey (EPAS) and his research asks how different structures were distributed across the alluvial plains in Erbil province, and how space between rural and urban centres was used.

There are three other major survey teams active in Kurdistan: 1) UGZAR (Upper Greater Zab Archaeological Reconnaissance, Adam Mickiewicz University, Poland); 2) LoNRP (Land of Nineveh Regional Project, University of Udine, Italy); and 3) EHAS (Eastern Habur Archaeological Survey, University of Tübingen, Germany). Together with EPAS, these teams have united themselves theoretically and methodologically under the name, the “Assyrian Landscape Research Group” to enable data sharing and synthesis. The group uses remote sensing techniques in the form of declassified satellite images from NASA’s intelligence-gathering CORONA and ASTER programmes. These aerial images were once used by the US to detect other countries’ weapon-making capacities between 1959 and 1972. Today they allow these archaeological teams to trace ancient interventions in the landscape. Close examination of the photographs shows structures such as canals, tells, roads and reliefs, even before archaeologists arrive on site. “I could see thousands of sites, almost all unknown to archaeology, on my office computer”, recalls Prof. Ur. Image analysis is typically followed by on-the-ground topographical surveys, with the collection of surface ceramics and an evaluation of the sites’ suitability for excavation. Of course, the teams’ projects are not completely homogeneous; each has its own particular questions and aims. For example, UGZAR also investigates the famous rock reliefs at Gunduk, dating to the Early Dynastic III period (c. 2,600-2,350 B.C.); while LoNRP aims to understand how the hinterland around Nineveh was organised, and has already begun dove-tailing survey results with targeted excavations at nearby Tell Gomel.

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The walled Middle Bronze Age city at Kurd Qaburstan (EPAS Site 31), possible ancient Qabra. CORONA 1039-2088DA038, 28 February 1967. Courtesy Prof. Jason Ur

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The Late Bronze Age/Iron Age city at Qasr Shemamok (EPAS Site 2), ancient Kilizu. CORONA 1039-2088DA037, 28 February 1967. Courtesy Prof. Jason Ur

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kurdistanFig12 Kawr Gosk canalheads

Canal heads on the Upper Zab near Kawr Gosk village. CORONA 1039- 2088DA036, 28 February 1967. Courtesy Prof. Jason Ur

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The activities described here, alongside many others that constitute Kurdistan’s archaeological ‘gold rush’, have reintroduced the world to this remarkable region. The teams’ results reveal sites and spaces that were occupied across millennia and were able to withstand many regional wars and disasters. What has both shocked and delighted most archaeologists, however, is the density of sites that have been discovered. Dr. Rafal Kolinski notes that his UZGAR team has recorded over 100 new sites in the vicinity of the Greater Zab, some of which date to pre-Hassuna and Hassuna periods, thus “providing an overarching timespan of approximately ten thousand years of the settlement history of the area.” LoNRP’s two on-the-ground surveys revealed c. 800 new sites, in addition to the 500 they’d already identified from the CORONA images. EPAS’ preliminary image analyses revealed at least 1,200 new sites in their concession, while on-the-ground surveys showed around 100 new sites. Indeed, LoNRP director Dr. Daniele Morandi Bonacossi asserts that these areas of Kurdistan have “a settlement density of nearly one site per square kilometer, a much higher density than that observed in the adjacent regions of the Iraqi and Syrian Jezirah and southern Mesopotamia”. This result is quite extraordinary, and allows the archaeologists to expose trends in settlement and land use hitherto unknown. For example, Prof. Ur has compared the number of sites found dating to a particular period with the number of hectares of land covered by these sites. He found that during the Bronze Age (c. 3,300–1,100 B.C.), settlement density (the number of sites in existence) varied only slightly, but that average site size and the total area that was settled increased dramatically, pointing to a similarly dramatic rise in population figures. Results like these are rightly attracting attention from other archaeologists who wish to come and work in Kurdistan. According to Prof. Ur, they will be in good company, particularly as “the Directorate of Antiquities is welcoming and helpful, and [is] quickly growing to meet the challenges of the influx of archaeologists.”

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Preliminary histogram of settlements recovered in the 2012 EPAS field season. Gray bars are numbers of sites, read against the left vertical axis; black line is the total settled hectares (in ha, not including Erbil), read against the right vertical axis. Graphics: created by and courtesy of Prof. J. Ur

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An uneasy future?

After decades of anticipation, archaeologists are once again awing the global public with fresh evidence of the glory of ancient Mesopotamia. Kurds and Iraqis, as well as Westerners, are the new protagonists in the rediscovery of ancient Mesopotamia; the achievements of Rich, Botta, Layard and Andrae are now simply the first phase in the history of archaeology in this region. Despite the violent and ever-changing political landscape in Iraq, Kurdistan has been a relatively safe haven that encourages a new archaeological ‘gold rush’. But we can only hope, given the political instability in the Middle East and the shifting fortunes of conflict, that the revival is here to stay.

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Photo image above, 5th from top, right: The author with Kurdish archaeologist Mr. Sangar Mohammed Abdullah, examining the most recent excavations at Erbil citadel. Photo credit: Rebecca E. Bradshaw.

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Post-script: Will the rise of the ‘Islamic State’ in Iraq affect archaeology in Kurdistan?

As this article was being written (June 2014), the self-proclaimed ‘Islamic State’ (a group of Sunni Muslim fundamentalists, hereafter referred to as ‘IS’) successfully seized several key cities in Iraq, and firmly occupied territory on part of Kurdistan’s western border. Large numbers of people fled in the wake of the IS’ advance, including vulnerable non-Muslim communities of Christians and Yezidis. Many people were killed – civilians as well as fighters – and it became clear that the Iraqi and Kurdish governments were unable to adequately protect or support their civilians. Therefore, in early August, the United States began supplying the region with humanitarian aid. More recently, the IS’ appropriation of a strategic hydroelectric dam near Mosul and its continuing slaughter of local populations prompted the US to inaugurate a series of military strikes on IS artillery units. As this article went to press, the US were furnishing the Kurdish ‘Peshmerga’ army with weapons, and helped them to retake Mosul dam by providing ground offences with air support, while major European powers were seriously questioning the viability of their policy of non-intervention in the region.

Many people fear that the rapid escalation of the situation presents an increasingly serious challenge to Kurdistan’s status as a ‘safe haven’. However, observers on the ground are keen to reassure the international community that those living and working within Kurdistan are not under direct threat, because IS have not yet been able to extend their reach into Kurdistan itself. But with no decisive end to the conflict in sight, and an increasingly unpredictable situation, have archaeologists been forced to reconsider their fieldwork plans?

In conversation with several colleagues in late July, the word was that most teams were still planning to conduct their autumn seasons in Kurdistan. Some of those with archaeological concessions in close proximity of IS (for example those working in the Nineveh Plain), chose to shift their geographical focus to the north or east. Other archaeologists with concessions in the Zagros Mountains near Turkey and Iran seemed content to monitor the situation as it developed. And yet, as University of Pennsylvania archaeologist Darren Ashby notes, the security status of the physical location of a site is only part of the consideration: “The international airports are located in Erbil and Sulaymaniyah. Fighting in and around those cities would likely shut down their airports, which could cause us to cancel in spite of security where we actually work.” For Kurdish and Iraqi archaeologists, however, it is a very different situation, as they do not have the option to leave the region or cancel their fieldwork. Far from being sensationalist or reactionary, many practitioners have long-term experience conducting their projects in politically volatile regions, and are sensitive of the many factors (such as accessible escape routes and feasible evacuation plans) that need close attention.

But for several directors, the developments in early- to mid-August left them no option but to cancel their fieldwork. Prof. Jason Ur reluctantly cancelled his August-September season, whilst another archaeologist at the University of Pennsylvania, Steve Renette, also decided to postpone his field season until May 2015, stating that “we… feel that we should not draw resources from more important objectives, and that we might get in the way of efforts to help refugees and to defend the people of Iraqi Kurdistan.”

After a brief moment of peace and security, Iraq and Kurdistan are experiencing yet another wave of unimaginable violence, resulting in the tragic loss of thousands of human lives and the possible destruction of a remarkable and under-investigated archaeological heritage.

Merenptah Rising

As Founder and Editor of Popular Archaeology Magazine, Dan is a freelance writer and journalist specializing in archaeology.  He studied anthropology and archaeology in undergraduate and graduate school and has been an active participant on archaeological excavations in the U.S. and abroad.  He is the creator and administrator of Archaeological Digs, a popular weblog about archaeological excavation and field school opportunities.  

Any visitor would find it difficult to miss the Penn Museum’s iconic red granite sphinx. Resting center stage in the museum’s Lower Egyptian Gallery space, one doesn’t need to know that its estimated 15 tons of stone make it massive—the eyes already have it. It is touted as the third largest known sphinx in the Western Hemisphere. Originally quarried at Aswan by the ancients over 3,000 years ago in Upper Egypt, it was then floated down the Nile river to grace the sacred enclosure of Ramesses II’s Temple to Ptah at ancient Memphis.

Despite its incredible workmanship, however, the face of this sphinx can no longer be seen. It has long been eroded away by windblown sand over centuries of exposure. But from the shoulders down, details remain in place, that portion having been buried by sand and time and protected. One can still see inscriptions carved on its chest and about its base, looking almost as if they had been carved yesterday. 

Surrounding the sphinx are the monumental reminders of another ancient pharaoh. Known as Merenptah, he was the 13th son of Ramesses II, having succeeded his father to the throne at a relatively advanced age and ruling for almost 10 years. Some of the monumental elements of his palace—massive partial columns, a gateway, doorframes, and lintels—which once stood pristine, complete, and fully painted near the Temple of Ptah and its sanctuary where the sphinx stood millennia before—are artfully represented. They constitute the most substantial assemblage of an ancient Egyptian palace in any single collection in the world.

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Egypt Sphinx GalleryIn the Penn Museum’s Egypt (Sphinx) Gallery, visitors can view the 15-ton Sphinx and its surrounding pillars and gateways, which date back to the 19th Dynasty (ca2393-2285 BCE) in Memphis, Egypt. The Sphinx of Ramesses II was excavated from the sacred enclosure of the temple of the god Ptah. The pillars and gateways were part of the palace of Merenptah. Photo image courtesy Penn Museum

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doorjampalacemerenptahBut there is more to this assembly than meets the visitor’s eye. Part of it remains in storage. And Penn Museum (short for University of Pennsylvania Museum of Archaeology and Anthropology) Director Julian Siggers has big plans for it, along with many other exhibition spaces at the museum.

“What we are to embark upon is the most ambitious renovation this museum has ever seen,” said Siggers, speaking of his vision to completely reinstall some of the museum’s signature galleries. “And in our basement we have a New Kingdom palace, the palace of Merenptah, and central to our plans is to install the throne room of the palace, complete with the full columns.” 

The plan harkens back to an earlier time, when, in the early 20th century Penn Museum archaeologist Clarence Fisher conducted excavations at a site in ancient Memphis that contained clues of a royal structure. By 1915, he and his work team had uncovered the major elements of what he identified as the Palace of Merenptah. More than 50 tons of excavated material, consisting of massive architectural elements such as columns, a monumental gateway, lintels, and doorframes, eventually made their way back to the Penn Museum in 1924 (see doorjamb example, above). Museum planners and curators were anxious to get these spectacular finds on display for the world to see, and thus a 3rd floor gallery space was prepared for the exhibition.

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merenptah-palace-excavation-1915Above, Merenptah’s palace being uncovered during the excavation in 1915. Below, the throne room of the palace emerges. Courtesy Penn Museum archives.

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throne-room-palace-merenptahMerenptah’s throne room emerges during excaations in 1915. Courtesy Penn Museum archives.

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But their initial vision could not be met. As it turned out, the gallery floor structure was not strong enough to sustain the weight of the massive objects. “The ceiling height was originally designed in the ’30’s to accommodate the full-length columns, but they miscalculated the floor carrying capacity,” said Siggers. The collection was moved to a first floor gallery, where they are seen today along with the sphinx—but only in part. The columns, for example, can only be seen as fragments or sections of their original form. Unseen elements still rest in storage, where today they await plans to restore the columns and gateway elements to their full height in a grand realization of the original scale in the 3rd floor gallery space as originally intended. “We just completed a feasibility study of how we can actually reinforce that floor very cheaply,” Siggers added. The project is expected to take at least several years to complete, in tandem with the many other renovation projects on the agenda.

The throne room reconstruction will be an apt tribute to a man who, like many of the pharaohs who came before and after him, made a clear imprint on Egyptian history. He is known to have carried out several military campaigns during his rule. In the 5th year of his reign he battled the Libyans, who, along with the help of the Sea Peopleswere challenging his kingdom from the West. He led a successful battle against the combined Libyan and Sea People forces at the city of Perire. Regarding another military theater, the Merneptah Stele, also known as the ‘Israel Stele, documents his victorious campaign in Canaan, where he boasts to have laid waste to the inhabitants there, including the ‘people of the book’:  “Israel has been wiped out…its seed is no more.” He escaped death on the battlefield, having died an old man, suffering from arthritis and arteriosclerosis. His remains, which were found in 1898 with a mummy cache of eighteen other mummies in the tomb of Amenhotep II (KV35) by Victor Loret, were transferred to Cairo and unwrapped and examined by G. Elliott Smith in 1907. Smith wrote:

The body is that of an old man and is 1 meter 714 millimeters in height. Merenptah was almost completely bald, only a narrow fringe of white hair (now cut so close as to be seen only with difficulty) remaining on the temples and occiput. A few short (about 2 mill) black hairs were found on the upper lip and scattered, closely clipped hairs on the cheeks and chin. The general aspect of the face recalls that of Ramesses II, but the form of the cranium and the measurements of the face much more nearly agree with those of his [grand]father, Seti the Great.*

Adjacent to the current gallery holding the Merenptah palace objects is a space exhibiting a small-scale artist’s model reconstruction of the throne room as it would have appeared in Merenptah’s day. Unlike the real, full-scale remains displayed nearby, it is brightly illustrated with the colors and symbols that would have adorned walls, columns and other architectural elements of the time. But it can’t compare in originality, feel and grandeur to the actual monuments  nearby. In this sense, actually ‘seeing is believing’—and putting it all together, at last, will be a perfect closure to a resurrection that began almost 100 years ago. 

Merenptah would be proud.

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MA1994-12An original watercolor reconstruction of the Throne Room of the Palace of Merenptah, painted by Mary Louise Baker, 1920. Image courtesy Penn Museum Archives.

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Throne Room ModelAn interior view of a model depicting a modern reconstruction of the Throne Room of the Palace of Merenptah, created in the 1930s by Mary Louise Baker. Photo image courtesy PennMuseum.

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Image third from top, right: Limestone door jamb from Palace of Merenptah, depicting the pharaoh in smiting pose defeating Asiatic enemies. Courtesy Penn Museum.

* Grafton Elliot Smith, The Royal Mummies, Cairo (1912), pp. 65-70 

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A R T I C L E   S U P P L E M E N T 

Penn_Museum

THE PENN MUSEUM’S BIG PLANS

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Williams Director Julian SiggersJulian Siggers is a man with a vision. Since assuming his responsibilities as the Williams Director of the University of Pennsylvania Museum of Archaeology and Anthropology in July of 2012, he has begun to reshape, in both institutional mission and physical layout, the museum’s face to the world. 

“I knew about this museum when I was an undergraduate in London,” says Siggers. “But even earlier, as a teenager my parents gave me a copy of Gods, Graves and Scholars, and one of the key stories it relates is the story of Ur, which of course is the account of the Penn Museum’s excavations there. So when I came here it was this incredible opportunity, because the focus of this museum, as a University museum, is of course research.”

It is thus Siggers’ dream to share this excitement of discovery through research with the public, launched from the foundation of it’s new mission statement, The Penn Museum transforms understanding of the human experience.

“What I have been able to do is work on a new strategic plan, and central to that is the reinstallation of some of our signature galleries, which includes our Egyptian galleries, our Asian *galleries, and our Near Eastern galleries,” Siggers continues. “These are some of the areas where our greatest excavations have been conducted. We’re going to bring the excitement of discovery into the galleries by redesigning everything and rethinking it from the ground up.”

It will mean presenting the objects in a chronological historical context so that visitors can understand the material culture as it developed in the timeline of human history. But what is more, it will be about telling the story of how and where they were discovered and who discovered them.

“Often when one goes to museums, the galleries are actually developed by departments, and they don’t reflect how one should properly tell the story of the past,” he explains. “I’m hoping to have more of a continuous story. But the thing I most want to see in the new galleries is to show how dynamic the process of discovery is. Right now we have all of these field projects, with people in Kurdistan, Egypt, Turkey, France, and Mesoamerica, and they’re coming back with these wonderful discoveries, and so we need to find a way to get these discoveries in the gallery.”

But Siggers’ new strategic plan goes beyond the gallery renovations. Two other initiatives will emphasize the museum’s prime traditions as a research and educational institution. The first will capitalize on the museum’s strength as a teaching and research institution—establishment of the Center for the Analysis of Archaeological Materials. In collaboration with the University of Pennsylvania’s School of Arts and Sciences, it is hoped that it will become a premier center for the teaching of archaeological science. The second, reaching out to potential future generations of archaeologists and history enthusiasts, involves a new partnership with the School District of Philadelphia. Bringing the fascination of archaeology and ancient history to the youth will be a major focus of the museum’s ongoing mission for public outreach and local engagement. It “will serve every 7th grade public school student in the city,” state museum officials.*  

In the end, Siggers feels that the science and contribution of archaeology is not only about discovery—it’s about translating it from the exclusive halls of academia and the specially equipped labs to those who ultimately matter the most in terms of understanding the human past—the inquisitive, appreciative public and future generations.

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* Building Transformation: A Strategic Plan for the Penn Museum 2013 – 2020, Expedition Magazine, Spring 2014, Volume 56, No. 1, p. 59

Photo image of Julian Siggers courtesy Penn Museum.

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The Mummy Doctors

As Founder and Editor of Popular Archaeology Magazine, Dan is a freelance writer and journalist specializing in archaeology.  He studied anthropology and archaeology in undergraduate and graduate school and has been an active participant on archaeological excavations in the U.S. and abroad.  He is the creator and administrator of Archaeological Digs, a popular weblog about archaeological excavation and field school opportunities.  

Standing still and quiet behind panes of glass that separate her only inches from an on-looking group of curious visitors, Molly Gleeson focuses intensely on a small, irregular-shaped fragment of ancient wood. Donned in light-weight blue lab attire and blue nitrile gloves, she carefully and meticulously treats and prepares a small piece of wood from a fragmentary coffin excavated in 1901. The coffin remains were brought back from a site in Abydos, Egypt, where the University of Pennsylvania was supporting excavations under the directorship of John Garstang through the Egypt Exploration Fund. It is a site where the Penn Museum has continuously conducted excavations since the 1960s. This small fragment, or ‘board’, as it is called, along with six other boards, is special because it exhibits the remaining traces of painted images and hieroglyphs that once graced the coffin in its full splendor over 4,000 years ago. It was a funerary survivor of Middle Kingdom Egypt. But this piece shows clear signs of termite damage, a destruction that had actually already taken place before the coffin was discovered and excavated. Gleeson’s most immediate objective, after study and research, is to stabilize it from further deterioration, and then restore it as much as possible and apply protective elements for continuing study and future display. It requires cleaning the surface with tools like a kneaded rubber eraser, stabilizing edges where there is paint loss with a 2% solution of methyl cellulose in water, and restoring pieces that had become detached “using a mixture of 5% methyl cellulose and Jade 403, an ethylene vinyl acetate emulsion.”* Such are the tools and techniques of the modern conservationist.

Gleeson is the Rockwell Project Conservator in the University of Pennsylvania Museum of Archaeology and Anthropology’s popular “mummy” lab, otherwise known simply as the Artifact Lab. Today, she and her colleagues are doing things that could be described as small miracles of ‘healing’—what is broken or faded or tainted with the ravages of time can be, in a very real sense, made whole again—at least as much as can be realistically expected. But a hundred years ago, when the coffin fragments were first excavated, the knowledge, skills and equipment required for such operations were not nearly as developed and sophisticated. Gleeson and her team would not be alone in saying that, today, restoration and conservation is an essential extension of the excavating and data collection done in the field, due in no small measure to the advances that have been made in our understanding of how and why ancient things can be preserved for both display and continuing analysis and study.  

“Our time in the field is limited by the length of the field season and the funds available to support conservation work on the excavation,” says Gleeson. Weather, political issues, and the nature of the discoveries are additional factors. But “in the lab we have access to microscopes, instruments and equipment (such as x-ray units) that we typically do not have in a field setting.” The tools of the trade include an expanding variety of materials and techniques for examination, treatment and research, including such things as optivisors (magnifying visors), solvents and adhesives, specially tested paper and fabrics, brushes, cotton swabs, scalpels, spatulas, and binocular microscopes.  “We also use a polarizing light microscope to examine tiny fragments of objects in order to identify what they’re made of and to identify corrosion and burial products,” Gleeson adds. 

These conservators are perhaps most popularly known for their work on the Penn Museum’s collection of Egyptian human and animal mummies, donated to the Museum in years past or acquired from excavations and field expeditions carried out or supported by the University of Pennsylvania prior to 1967. They have thus found themselves working on a range of mummies, from an unknown man mummified during the Third Intermediate Period (ca. 800 BCE) to a small Ibis mummy (a mummified long-legged wading bird), both from storage, just recently unwrapped and repaired. But projects often also include objects related to past expeditions in other parts of the world and associated with other civilizations, such as artifacts from the Penn Museum excavations at Lapithos (in present-day Cyprus) and the historic excavations at the Royal Cemetery of Ur (in present-day Iraq).  

In any case, even after the work in the field is finished, the project conservator’s job is an ongoing one, typically extending many years after the initial data collection and analysis has completed its cycle.

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A close-up of fragments from a painted wooden coffin, excavated in 1901 from North Abydos, dating to ancient Egypt’s Middle Kingdom. The wood in these fragments is severely insect-damaged by termites, and paint is actively flaking. Previous treatment on the fragments, using some kind of plaster, is also degrading and falling away—a piece of this plaster is visible at center. Photo: Penn Museum.

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mummydoctorsPaintedCoffinBoardsTreatment

Conservator Molly Gleeson applies an adhesive by brush to stabilize the flaking paint on a painted coffin board. After treatment, these boards will be exhibited at the Museum for the first time. Photo: Penn Museum.

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Conservators are able to use some simple tools to their advantage. This kneaded rubber eraser will be used to clean the surface of a painted wooden coffin. Photo: Penn Museum.

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mummydoctorsMicroscope

Gleeson examines a painted coffin board under a microscope to better understand its manufacture and treatment history. The screen at left is mirrored outside of the lab to offer the public a close view of what she is seeing under the lens. Near the center of the screen, a tiny brush is seen applying small drops of adhesive to the edge of the painted decoration, which will help to stabilize the fragile paint. Photo: Penn Museum.

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mummydoctorsPreservationPencil

Gleeson works on realigning sections of the roughly 2,500-year-old coffin of an individual named Tawahibre, who lived during the Late Period in ancient Egypt (558 — 332 BCE). Here, she uses a “Preservation Pencil,” which allows her to direct a stream of humidified air at specific areas of the coffin, relaxing the plaster and wood. After it has moved sufficiently, she will apply pressure to the area to hold everything in place. Photo: Penn Museum.

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Before and after: The coffin shown at left before conservation treatment, and again after treatment at right. Photos: Molly Gleeson.

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Advancing Knowledge

Conservation in the lab is not only about fixing and preserving things. For centuries, mummies and their associated objects and architectural context have helped to tell the story of ancient Egypt. So in the process of preserving and restoring them, the scientists of the Artifact Lab have discovered new things and raised new questions about ancient Egyptian life and culture.

Gleeson and her colleagues are currently working on an Egyptian Predynastic mummy. Determined to have been a man aged 60 at the time of his death about 6,000 years ago, he was originally donated to the Museum in 1898 by Ethelbert Watts, who was serving as an Assistant American Consul in Cairo at the time. The mummy has been in storage ever since—until 2011, when the mummy was ‘re-discovered’ and brought out of storage by Dr. Jane Hill of Rowan University and her colleague Dr. Maria Rosado.

Nicknamed “Bruce”, he is a curious brown bundle. Within the mass one can see a flexed, articulated skeleton, not unlike other Predynastic mummies.

But Bruce is different. 

“He was buried lying on his side, in a flexed position, wrapped in layers of linen, animal skin, and a woven reed mat, and included in the bundle are very finely woven baskets,” says Gleeson. “We are undertaking a technical study of the remains in collaboration with Dr. Hill and plan to create a new storage mount to provide additional protection for the fragile bundle.”

The study could significantly change or add to what we know about ancient Egyptian burials before the pharaohs.

“Everything that we learn from this mummy,” Gleeson continues, “from the way in which his body was prepared, to the materials used in his bundle, will bring new information to light about early technologies and funerary practices in ancient Egypt.”

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mummydoctorsPredynasticMummy1

Above and below: Gleeson examines the oldest mummy in the Penn Museum, a Predynastic mummy that dates to roughly 4000-3600 BCE. Molly is working to identify the type of animal hide in which the mummy is wrapped, as well as the animal hairs used to make the finely woven baskets that are embedded in the “burial bundle.” Photos: Penn Museum.

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mummydoctorsPredynasticMummy2

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It isn’t just conservation and research on the earlier mummies that is breaking new ground and raising new questions. “Bruce” is only one among a number of mummies within the Penn Museum’s collection, considered to be among the most important repositories of ancient Egyptian mummies and funerary materials undergoing active conservation in the U.S. The collection spans thousands of years of Egyptian history. It includes some of the earliest known mummies, which were preserved naturally in time through the effects of the hot desert sand, as well as those that were produced later during the pharaonic periods through artificial methods. “One of the most memorable experiences has been working on a mummy that we call PUM I (Philadelphia University Museum 1),” says Gleeson. PUM I is a man who lived during the Third Intermediate Period (about 850 BCE). Initially donated to the Museum in 1905, the body was autopsied in 1972 and has been in storage ever since. “Working on his remains has uncovered a lot of new information and has challenged previous assumptions,” she continues. “For instance, during the autopsy it was discovered that the body was probably never fully mummified. His internal organs were found during the procedure. As a result his remains are very badly deteriorated under the linen wrappings. Based on this finding, it was assumed that he was likely someone of lower status. But during the recent conservation work, we noted that his remains were wrapped in over 30 layers of linen, and we uncovered and documented traces of a once very elaborate beaded shroud. The fact that he was wrapped in many layers of linen and the presence of this shroud, which would have been expensive and not something that everyone could have afforded, conflicts with the previous assumption about his status. Such findings raise interesting questions about how and why people were making decisions about their burials.”

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Gleeson works with PUM 1, whose outer shroud is actively flaking. Here she is shown attempting to reattach a disassociated fragment to the shroud. Photo: Penn Museum.

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Above and below: The In the Artifact Lab: Conserving Egyptian Mummies exhibition has also served as a valuable educational setting for budding conservators. Here, Gleeson (right) works with Conservation Intern Anna O’Neill to sort through disassociated fragments of the outer shroud of a mummy before attempting to reattach them. Photos: Penn Museum.

mummydoctorsPUM1-3

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The Big Picture

The Penn Museum’s vast collections have much to do with the institution’s sustained standing at the cutting edge of the science. Since its founding in 1887, the Museum has collected nearly one million objects. Only a fraction of them are exhibited in the Museum’s public gallery spaces. There are hundreds of thousands more stored away, unseen by the public. Much of it awaits the magic of the conservator’s hand before they can be properly exhibited or effectively studied further. So the conservator’s job, in addition to applying an advancing science, is a never-ending one. But it involves much more than spending hours within the exclusive confines of the lab. For David Silverman, the Curator-in-Charge of the museum’s Egyptian collections, it has a lot to do with the lab’s role in presenting the bigger picture of the Egyptian civilization to the visiting public, and it all fits into the Penn Museum’s plans for change over the next few years. This will include conservation work and reinstallation of the museum’s prized throne room of Pharaoh Merenptah’s palace to its full height, something that had been unsuccessfully attempted in the 1930’s because of structural weakness in the floor carrying capacity of the intended gallery space. “Hopefully, the Artifact Lab will become an important part of this project,” he says.  

“The conservation of the western wall of the tomb chapel of the treasury official, Kaipure, is the next largest project,” he continues.  “Begun in the 1990s, the project was able to conserve the stone blocks and the beautifully carved and painted reliefs on their surfaces.  It was exhibited around the country at several museums in the late 1990s, and we await the opportunity of beginning the second half of the project to conserve the remaining walls and then reinstall the entire tomb chapel as it had originally appeared. Other projects include examination and conservation of mummies, papyri, and wooden artifacts.”

Ultimately, it is all about education and the public. After all, the Artifact Lab is part of a museum, and the museum is connected to a major university. “One of the motivations [for establishing the Lab],” says Silverman, “came from our desire to involve the public more in the activities of the museum, explaining the type of work that goes on behind the scenes and why and how we do it. Another was to have the opportunity to work on a greater number and variety of artifacts. As a curator, I welcomed the opportunity to work on material (sarcophagi, papyri, sculpture, mummies, etc.) that the facilities, lighting, climate, and space in storage would not allow. And the public can participate in the action as the events unfold and knowledge is revealed. They become part of the process and are less a passive observer after the fact than a participant who is part of the action.”

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Standing behind the glass in the In the Artifact Lab: Conserving Egyptian Mummies, Dr. David Silverman, Curator, Penn Museum Egyptian Section, and Lynn Grant, Penn Museum Head Conservator, examine object #E16218C—a coffin board from the Egyptian site of El-Bersheh. Photo by Steve Minicola, University Communications.

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Silverman in the Museum’s Egypt (Sphinx) Gallery. Behind him is a 15-ton red granite Sphinx of Ramesses II, 19th Dynasty, (ca. 1293–1185 BCE), found in Memphis, Egypt. Photo: Penn Museum.

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For the conservators, interaction with Museum visitors is a major part of the daily routine. Here, Haas Trust Conservator Nina Owczarek answers questions from a group of visitors about her current project during one of the lab’s twice-daily, half-hour “open window” sessions. Photo: Penn Museum.

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In the Artifact Lab: Conserving Egyptian Mummies can be seen by visitors in the Upper Baugh Pavilion on the 3rd floor of the Penn Museum in Philadelphia. Because it is a working lab, conservators are usually busy focusing on their ongoing projects, but visitors may ask questions weekdays, 11:15 – 11:45 am and 2:00 – 2:30 pm, and weekends, 12:30 – 1:00 pm and 3:30 – 4:00 pm. Readers can also keep up with the latest activities and developments in the Artifact Lab by going to the Artifact Lab Blog.

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* From Treating fragments of a Middle Kingdom painted wooden coffin, by Molly Gleeson, In the Artifact Lab Blog, July 6, 2014.

The Girl in the Cave

Tulum, Quintana Roo, in the Yucatán Peninsula of Mexico — It was in May of 2007 when the divers approached it—a cenote deep inside the jungle. Cenotes, or water-filled sinkholes, are not uncommon in these parts. In fact, in the Yucatán, they exist by the thousands. Divers and archaeologists alike love them for the secrets they hide — secrets that could reveal much about a past human presence in a subtropical world that seemed to serve as an unlikely setting for one of the greatest of ancient civilizations, the Maya. Alberto Nava, who took the lead on this dive, is something of a veteran when it comes to such ventures. He is a professional diver with the Bay Area Underwater Explorers, a California-based nonprofit organization dedicated to exploration and conservation of the world’s underwater regions. With his two other diving companions, Alex Alvarez and Franco Attolini, he plunged into the cenote, an entry into an elaborate underwater cave system known as the Sac Actun. It was not unlike most any other dive — until they encountered an unexpected drop.

“We traveled through a flooded tunnel for about 1 mile before we reached the edge of this pit,” recounts Nava. “The floor disappeared under us, and we could not see across to the other side. We pointed our lights down and to the sides. All we could see was darkness. We felt as if our powerful underwater lights were being absorbed by this void, so we called it Black Hole, which in Spanish is Hoyo Negro.”

Nava and his colleagues could see that there was much more to this than they could absorb on a first dive. So they waited for another day.

“A couple of months later, we ventured deeper into this darkness and reached the floor of the pit at about 170 feet. It was a bell-shaped structure 200 feet in diameter. The center was littered with large boulders stacked on top of each other. As our eyes got accustomed to the environment, we started to notice large animal bones. The first one we found was a 3- foot-long femur resting against one of the boulders. My teammates started signaling in all directions as they pointed to animal remains that were resting at the bottom and on the walls of the pit. At that time, we were not sure what kind of bones we were looking at, but we knew they were old and big. All of the sudden, Alex pointed to a human skull resting on the top of a small ledge. It was a small cranium laying upside down with a perfect set of teeth and dark eye sockets looking back at us. The skull was resting on its humerus, and we could see the rest of the upper torso spread to the left and down on the ledge.”

As they usually did when encountering new finds, they began documenting the site. But they could see that this was a discovery that required more specialized attention.

“In 2009, we reported the site to archaeologist Pilar Luna from Mexico’s National Institute of Anthropology and History (INAH), and together we created the Hoyo Negro Consortium (www.hoyonegro.org ), a group of cave divers and researchers working to unravel the mysteries of Hoyo Negro.”

With this, the real scientific journey began at full throttle.

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earlyamericanspic8A broad view of Hoyo Negro, shot from the floor near the south edge, showing the immensity of the chamber and the complexity of the boulder-strewn bottom. One access tunnel can be seen near the ceiling at top left. This photo was taken by the “painting with light” method on a 30 second exposure. Text and photo credit: Roberto Chavez Arce

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earlyamericanspic6The skull as it was discovered in 2007, resting against the left humerus (upper arm bone).
Photo and text credit: Daniel Riordan Araujo

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skeleton3The skull as it appeared in December 2011, after rolling into a near-upright position.
Photo credit: Roberto Chavez Arce

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The Cave and The Water Nymph

Under the auspices of the new consortium, the task now fell to an international interdisciplinary team of scientist-specialists to undertake the meticulous job of additional recording, recovery, examination, and analysis of the various finds — finds that would eventually lead to some headline-making conclusions.

For the anthropologists and archaeologists of the group, the greatest excitement naturally focused on the human remains, what was turning out to be a nearly complete skeleton. But before anyone could understand the age and significance of the skeleton, they needed to understand the context. This required the efforts of specialists with knowledge of things like geology and cave formation, paleontology, dating techniques, and genetics. 

Patricia Beddows of Northwestern University is one of those specialists. Her work has focused on cave systems formed by the dissolution of soluble carbonate rocks like limestone and dolomite, especially the flooded caves of the Yucatán Peninsula, including Hoyo Negro. She has logged countless hours diving into the cave systems. “Research in flooded caves is much like space exploration, with divers similar to astronauts reporting back to ‘mission control’ — a much larger scientific team at the surface,” said Beddows. “It all has to be done on SCUBA, which is our life support system.” Beddows’ studies have shown how the extensive Yucatán cave system has drained groundwater to the coast and how the water level in the caves has closely matched the sea level changes over time. “Using this knowledge, we understand how Hoyo Negro has changed over thousands of years,” she says. This has helped to date Hoyo Negro, once a drier cave chamber with lower water levels, to more than 12,000 years ago, when many of the bones or animals, including the human, had apparently fallen into or entered the cave. Her work with the re-crystalized rock sediments in the cave system also helped. The rocks and the bones in Hoyo Negro are coated with rock crystals, including a new form of crystal that Beddows calls “florets”. Using Uranium/Thorium dating analysis, scientists have been able to accurately and reliably date the bone. “An impressive aspect of this research is that we have dated the skeleton directly, but we also have supported these dates with additional dates on the florets,” Beddows said.

But narrowing down the dating has been very much a team effort, with a multi-pronged approach. To begin with, the cave-diving scientists knew that the human skeleton was found within the context of the skeletal remains of 26 large mammals, many of which were identified as the bones of long-extinct fauna, such as saber-toothed cats and gomphotheres (extinct relatives of mastodons). These are mammals that lived more than 11,000 years ago. The human skeleton was found near the bones of a gomphothere. Douglas Kennett, professor of environmental archaeology at Penn State, and Brendan J. Culleton, postdoctoral fellow in anthropology at Penn State, worked with colleagues to construct a geochronological framework for the skeleton by using a combination of methodologies that successfully constrained the age to the end of the Ice Age, the Late Pleistocene. Working with Yemane Asmerom and Victor Polyak from the University of New Mexico, they applied global sea level rise data to determine when the cave system filled with water. As the bones now lie about 130 feet below sea level, they estimated that sea level rise would have raised the groundwater level in the cave system and submerged the bones between 9,700 and 10,200 years ago. Thus, the latest animals and humans could have entered the cave system in a dry state was about 9,700 years ago.

In addition, enamel extracted from a tooth of the skeleton was radiocarbon dated to 12,900 years ago by Kennett’s lab.

“Unfortunately, we can’t rule out that the tooth enamel is contaminated with secondary carbonates from the cave system, but we removed potential contaminates using standard techniques and Tom Stafford, Stafford Research Laboratories, produced a comparable age,” said Kennett. “We consider this a maximum age and when combined with the uranium thorium dates from the adhering speleothems, we argue that the skeleton dates between 12,000 and 13,000 years ago. Well placed as a Paleoamerican.”

A Paleoamerican. This was something quite different than an ancient Mayan. The Maya, best known for the iconic monumental Mesoamerican cities like Chichen Itza, Tikal, and Copan, lived and dominated Central America from about 2000 B.C to about 1500 A.D. The Paleoamericans lived thousands of years earlier, inhabiting the American continents during the final glacial episodes of the late Pleistocene period, as far back as 15,000 years ago. The bones of this skeleton were dated to between 12,000 and 13,000 years ago. This represented one of the six oldest humans found in America. And it was certainly the most complete find for that time period. 

But there was more to the skeleton than age. After examination, the team determined that the skeleton belonged to a slightly-built, 4-foot-10-inch girl of between 15 and 16 years of age. A teenager. She may have fallen into the pit while searching for water more than 12,000 years ago, the team surmised. A plausible scenario, as there was no evidence that she had been attacked, killed and dragged into the cave chamber by another preying animal. Scientific teams like to give nick-names to their biggest finds, especially if they are human skeletons. So the Hoyo Negro team called this one Naia, a greek reference to a water nymph. The name stuck and, along with names like “Lucy”, “Turkana Boy” and “Kennewick Man”, “Naia” was soon becoming something of a household word among scientists and the public, alike.

More important to the scientists, however, was that her features were consistent with those often attributed to Paleoamericans based on previous excavations and studies. “The earliest human skeletons found in the Americas differ markedly from those of modern Native Americans in the shapes of their skulls, faces and teeth,” said Dr. James C. Chatters of Applied Paleoscience, lead author of a recently published study related to the Hoyo Negro finds. The 9,000+-year-old Kennewick Man, found near Kennewick in Washington State in 1996, and also examined by Chatters, was a prime example.

Deciphering the ancestry of the first people to populate the Americas has been a challenge. On the basis of some genetic studies, modern Native Americans are thought to descend from Siberians who moved into eastern Beringia (the landmass that anciently connected Asia and North America) between 26,000 and 18,000 years ago. These people, considered the earliest Americans, are suggested to have then spread southward and populated the rest of the continent. But despite widespread support for this idea, the ancestry of the earliest Americans is still debated because, among other things, the facial features of the oldest American skeletons don’t look much like those of modern Native Americans. Thus, in terms of the Native American origins debate, the Hoyo Negro story is significant. And to this, the genetics contingent of the team had something to say about Naia………….

Haplogroups and Beringia

As is often the case, interdisciplinary scientific teams often turn to the best technical experts when it comes to finding answers to their questions. So it was that the Consortium approached Applied Paleoscience founder and Director James Chatters, a forensic anthropologist, archaeologist, and paleontologist. It was Chatters who played the lead role in the study of the famous Kennewick Man, and it is Chatters who is now leading the examination and analysis of Naia’s remains, resulting in a recently-published study that has catapulted Naia front-and-center on the stage of Native American origins research. 

For the genetic examination component, Chatters recruited Brian Kemp of Washington State University to take the lead. Using the latest techniques, Kemp, a molecular anthropologist with expertise in the field of ancient human genetics, has sequenced DNA from ancient human remains found in both North and South America, including human coprolites — ancient excrement — from archaeological sites in Oregon and the American Southwest. His task was to tease out small amounts of Mitochodrial DNA (mtDNA), found in the energy-generating structures of cells, of one of Naia’s teeth. Isolating and sequencing mtDNA is common among studies of ancient human remains, as organisms contain many more copies of it than chromosomal DNA. And because it is inherited from the mother, one can determine maternal ancestry.

Extracting and analyzing Naia’s DNA was challenging, to say the least. “There is very little DNA preserved in a skeleton of such great antiquity,” said Kemp.

But because mtDNA is so much more plentiful than chromosomal DNA, and because scientists have now clocked years of experience sequencing mtDNA from ancient bones, it was a feasible undertaking. Using molecular biological techniques to amplify the DNA, Kemp was able to make hundreds of billions of copies of Naia’s original DNA material. “Once so many copies are made,” said Kemp, “it is pretty straightforward to study the DNA.”

The study results were enlightening. Kemp had determined that Naia shared a common ancestry with many of today’s Native Americans — a genetic signature that is derived from an Asian lineage but is only found in the Americas today. Called Haplogroup D1, it is found throughout North, Central and South America. It is thought that about 11% of Native Americans exhibit this haplogroup — especially in South America, where it shows up in about 29% of indigenous Chileans and Argentinians. Geneticists theorize that this lineage arose in Beringia after the ancient Beringian population separated from other Asian populations.

Kemp then asked two other expert colleagues to conduct similar tests on Naia’s tooth to verify his results. Deborah Bolnick, assistant professor of anthropology at the University of Texas at Austin, came up with essentially the same results. University of Illinois anthropology and Institute for Genomic Biology professor Ripan Malhi, focusing on regions of the mitogenome that mutate more slowly than other parts of the genome (and thus could be more reliable markers of genetic relatedness through time), also corroberated Kemp’s results. 

Three separate labs had confirmed the same results. Naia, a Paleoamerican with physical characteristics distinctly different than today’s Native Americans, shared the same ancestry — an ancestry that pointed to ancient Beringia — and by extension to Asia.

The finding was not altogether startling. Previous studies have indicated similar results. But this is the first time that a nearly complete skeleton of this age has been genetically linked to today’s Native Americans, and protractively to Beringia and Asia. “Because she exhibits distinctive Paleoamerican skull and facial features,” says Bolnick, “the study shows for the first time that Paleoamericans with these distinctive features can have Beringia ancestry.”

Yet, what accounts for these different physical characteristics?

It could be evolution, suggests Bolnick and colleagues. “It seems likely that differences between Paleoamericans and Native Americans of today are due to evolutionary changes that occurred in Beringia and the Americas over the last 9,000 years,” she says. To support her suggestion, Bolnick points to evolutionary changes that have occurred over the last 10,000 years in other populations — a comparatively short time period on the evolutionary time scale, traditionally measured in millions of years. “There have also been studies of the skeletal morphology in later remains discovered in the Americas over the last 10,000 years. We certainly do see changes in the skull shape, in the facial features over that period of time.”  She points additionally to Native American populations in South America who live at high altitudes, who evolved genetic and physical characteristics that have facilitated their survival in these regions.

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skeleton4The upper right third molar of Naia, which was used for both radiocarbon dating and DNA extraction. The tooth is held by ancient genetics expert Brian Kemp of Washington State University, who led the genetic research on the skeleton. Photo credit: James Chatters

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The 10,000-Year Homeland

The Naia story and its evolutionary element have important implications in connection with other recent studies related to Native American origins. Some of them revolve around one emerging theory that has drawn the focus and attention of researchers from all over the world. Known as the “Beringia Standstill” theory, it was first suggested by two Latin American geneticists in 1997 and then refined or corroborated by a University of Tartu research team in Estonia in 2007. From a sampling of mitrochondrial DNA from more than 600 Native Americans, they found that mutations in the DNA pointed to the likelihood that a group of their direct ancestors from Siberia was isolated from their Siberian origins for at least several thousand years, during the time period from 25,000 (if not earlier) to 15,000 years ago (when ice-free corridors developed), before their descendants moved into the Americas. Evidence from recent paleo-ecological research suggested that this isolation most likely occurred in Beringia, a land mass that once covered the present-day Bering Strait between northeast Asia and Alaska. 

“A number of supporting pieces have fallen in place during the last decade, including new evidence that central Beringia supported a shrub-tundra region with some trees during the last glacial maximum and was characterized by surprisingly mild temperatures, given the high latitude,” said John Hoffecker of CU-Boulder’s Institute of Arctic and Alpine Research, who is the lead author of a related Perspective article that appeared in the Feb. 28 issue of Science magazine. 

This is an important aspect within the overall geographic context of the area, as the last glacial maximum reached its peak about 21,000 years ago with the development of massive ice sheets across North America and Europe, essentially blocking access to North America from northeast Asia until about 15,000 years ago. Thus the ice sheet barrier, along with distance from Siberia, would have created a geographic basis for the gap suggested by the genetic data.

But combining the genetics with the recent paleoecological research, which involved analyzing fossil pollen, plant and insect material taken from sample sediment cores from the now submerged landscape, has been the key.

“The genetic record has been very clear for several years that the Native American genome must have arisen in an isolated population at least by 25,000 years ago, and the bulk of the migrants to the Americas really didn’t arrive south of the ice sheets until nearly 15,000 years ago,” said co-author and University of Utah anthropologist Dennis O’Rourke. “The paleoecological data, which I think most geneticists have not been familiar with, indicate that Beringia was not a uniform environment, and there was a shrub-tundra region, or refugium, that likely provided habitats conducive to continuous human habitation.” 

Scott Elias, an article co-author and a professor with the Department of Geography at Royal Holloway, elaborated: “We believe that these ancestors survived on the shrub tundra of the Bering Land Bridge because this was the only region of the Arctic where any woody plants were growing. They needed the wood for fuel to make camp fires in this bitterly cold region of the world. They would have used dwarf shrub wood to get a small fire going, then placed large mammal bones on top of the fire, to ignite the fats inside the bones. Once burning, large leg bones of ice-age mammals would have burned for hours, keeping people alive through Arctic winter nights.”

On the genetic side of things, the theory that humans inhabited Beringia for as much as 10,000 years “helps explain how a Native American genome (genetic blueprint) became separate from its Asian ancestor,” said O’Rourke.

“At some point, the genetic blueprint that defines Native American populations had to become distinct from that Asian ancestry,” he explains. “The only way to do that was for the population to be isolated. Most of us don’t believe that isolation took place in Siberia because we don’t see a place where a population could be sufficiently isolated. It would always have been in contact with other Asian groups on its periphery.”

“But if there were these shrub-tundra refugia in central Beringia, that [would have] provided a place where isolation could occur” due to distance from Siberia, O’Rourke says.

In contrast to the genetic and paleoenvironmental evidence, however, the archaeological record has been lacking. This would be explained by the suggestion that, according to a number of scholars, the archaeological evidence was submerged under the rising sea levels that resulted in today’s geography of the region. “These shrub-tundra areas were likely refugia for a population that would be invisible archaeologically, since the former Beringian lowlands are now submerged,” maintains O’Rourke. The suggestion that rising sea levels subsequently covered the evidence of human migration into the Americas has also been a long-standing theory among researchers studying the model that advances the notion that early Native Americans moved south along the Pacific coast as the glaciers receded and sea levels rose. 

In addition, Hoffecker suggests that the Beringia inhabitants during the last glacial maximum could have made successful hunting forays into the uninhabited steppe-tundra region to both the east and west of central Beringia, where drier conditions and more grass supported a plentiful array of large grazing animals, including steppe bison, horse and mammoth.

There is now solid evidence for humans in Beringia before the last glacial maximum, as geneticists first predicted in 1997, according to Hoffecker. After the maximum, there are two sets of archaeological remains dating to less than 15,000 years ago. “One represents a late migration from Asia into Alaska at that time,” he said. “The other has no obvious source outside Beringia and may represent the people who are thought to have sheltered on the land bridge during the glacial maximum. If we are looking for a place to put all of these people during the last glacial maximum, Beringia may be the only realistic option.”

Hoffecker, O’Rourke and colleagues say new archaeological sites must be found in Beringia if the long human layover there is to be confirmed. Although most such sites are presumed to be underwater, they are hopeful that some evidence of human habitation in shrub-tundra areas might remain above sea level in low-lying portions of Alaska and eastern Chukotka (in Russia).

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earlyamericanberingiaMap of ancient Beringia, showing the outlines of modern Siberia (left) and Alaska (right) with dashed lines. The area in dark green is the portion of Beringia (now submerged by the ocean) near the end of the last glacial maximum, a period that lasted from 28,000 to 18,000 years ago when sea levels were low and ice sheets extended south into what is now the northern part of the lower 48 states. Photo Credit: Wlliam Manley, Institute of Arctic and Alpine Research, University of Colorado. Illustration below: credit Julie McMahon

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Moving Forward

Although the Hoyo Negro findings have added significant additional support for the Beringian origins theory, the scientists caution that there is much more work to do before any far-reaching conclusions can be drawn. After all, Naia has shown that she is related to only 11 percent of all Native Americans. What about the other 89 percent? The findings thus far suggest that at least some modern-day Native Americans can trace their roots to an ancient Beringian population. But scientists have learned, over and over again, that the more they discover about human prehistory, the more they realize they don’t know. Reconstructing the past often turns out to be far more complicated than we initially suppose. And this, the Hoyo Negro scientists would likely agree, makes the whole journey of discovery all the more exciting.

“The dating and genetic analysis of Naia is a first step in what we hope will be a long productive investigation of Hoyo Negro,” says Chatters, looking ahead. “Our next steps will focus on attempting to sequence Naia’s nuclear DNA, determining the ages and genetics of the cave’s other animal skeletons and reconstructing the environment in which they and Naia lived.”

But it will all take a village of experts, just as it has to this point, employing a variety of disciplines and skills to re-create the evolving picture. “Balancing all of these elements has been a wonderful challenge,” says Pilar Luna from INAH. “On the one hand, we have a large team of renowned scientists who have been extremely generous sharing their knowledge and experience to analyze, understand, and interpret the findings, in order to produce the knowledge we have gotten so far. On the other hand, there are the cave divers, who have taken specialized courses to gather data for archaeological purposes, to properly record the general context taking samples, measurements, photos, videos, etc., and following with extreme care all requests made by the experts, in spite of the complexities and dangers of the cave itself. Also, we have had the support from engineers and technicians who have developed extraordinary methods to be used in this project for the first time, with significant results, mainly in the fields of software and photography.”

The combined efforts will extend to protecting the cave itself from would-be looters and other environmental dangers, so that research can continue as long as possible. “We feel obligated to protect this incredible resource,” says Nava. “So we are working with INAH and other Mexican authorities to control site access and make sure Hoyo Negro is preserved for future generations.”

Time will tell the ultimate fate of the Black Hole. In the meantime, what is collected of Naia’s remains will rest enshrined within laboratory walls and, perhaps in time, behind museum glass. 

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 Article Supplement

Naia’s World of Gomphotheres

When University of Arizona archaeologist Vance Holliday and colleagues began uncovering large fossilized bones at the site of El Fin del Mundo in the Sonoran Desert of northwestern Mexico in 2007, they weren’t sure what kind of animal they were unearthing. 

“At first, just based on the size of the bone, we thought maybe it was a bison, because the extinct bison were a little bigger than our modern bison,” said Holliday, who has been researching geoarchaeology at Paleoindian sites across the U.S. for years.

Then, in 2008, they discovered something that clinched it for them.

“We finally found the mandible, and that’s what told the tale,” Holliday said.

It was a gomphothere.

Actually, two of them.

About the same size as a modern elephant, but smaller than their extinct cousins the mammoths, gomphotheres were once widespread in North America but were thought to have disappeared from the fossil record long before humans arrived in North America some 13,000 to 13,500 years ago.

Until now.

Radiocarbon dating of charcoal flecks and burned bone found within the context of the fossils indicated a reliable age of 13,390 years. This made these two gomphotheres the last known gomphotheres in North America.

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Gomphothere mandible in place, upside down, at El Fin del Mundo excavation site. The fossil was fully prepared at the INAH zooarchaeology lab in Mexico City. Image courtesy of Vance T. Holliday.

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The fully excavated and prepared gomphothere mandible. Courtesy Joaquin Arroyo-Cabrales/Instituto Nacional de Antropología e Historia

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These sculptures, made by Mexican artist Sergio de la Rosa, show three elephant ancestors: (from left to right) the mastodon, the mammoth and the gomphothere. Courtesy Sergio de la Rosa

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But there was more.

As they excavated among the bones, they also uncovered human artifacts—Clovis artifacts, to be specific—including 7 projectile points, some stone cutting tools and 21 flint flakes from stone tool-making. The position and proximity of the Clovis fragments relative to the gomphothere bones at the site suggested that humans did in fact kill the two animals there. Of the seven points found at the site, four were in place among the bones, including one with bone and teeth fragments above and below. The other three points had eroded away from the bone bed and were found scattered nearby. This suggested that the gomphotheres were likely hunted and thus constituted a Clovis prey species, along with mammoths, mastodons, and bison, already known to have been hunted by the Clovis.

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A clear quartz Clovis point found near the bone bed at El Fin del Mundo. Although very difficult to shape into a tool, quartz was used by Clovis tool makers at several sites.  Courtesy INAH Sonora.

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“This is the first Clovis gomphothere, it’s the first archaeological gomphothere found in North America, it’s the first evidence that people were hunting gomphotheres in North America, and it adds another item to the Clovis menu,” Holliday said.

The Clovis culture, today considered the oldest clearly defined and recognized Paleoindian culture in the Americas, is characterized by its distinctive stone tools, particularly the fluted projectile points. The first examples of this culture were discovered by archaeologists near Clovis, New Mexico, in the 1930s. The El Fin del Mundo site, along with the Aubrey site in Texas, is now among two sites that show the earliest solid evidence of Clovis hunting in North America, indicating that the earliest widespread and recognizable group of hunter-gatherers were already in place 13,390 years ago in the North American Southwest.

Holliday and colleagues suggest that the finds support the model of an American southwestern origin for the Clovis material culture. As they conclude in the study, published this week in the Proceedings of the National Academy of Sciences:

“These data expand our understanding of the age range for Clovis, Clovis diet, raw material preference, and the late Pleistocene megafaunal assemblage of North America, and provide evidence for a southern origin of the Clovis technocomplex.”*

 

Holliday and the study team report that the radiocarbon ages from El Fin del Mundo were made based on testing the site’s charcoal, shell, and organic matter at the Arizona Accelerator Mass Spectrometry Laboratory.

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*Article #14-04546: “Human (Clovis)–gomphothere (Cuvieronius sp.) association ~13,390 calibrated yBP in Sonora, Mexico,” by Vance T. Holliday et al.

In addition to Holliday, authors of the PNAS paper include: lead author Guadalupe Sanchez, who has a doctorate in anthropology from the UA; UA alumni Edmund P. Gaines and Susan M. Mentzer; UA doctoral candidates Natalia Martínez-Tagüeña and Andrew Kowler; UA master’s student Ismael Sanchez-Morales; UA scientists Todd Lange and Gregory Hodgins; and Joaquin Arroyo-Cabrales at the Instituto Nacional de Antropología e Historia.

The dig at El Fin del Mundo, a joint effort between the U.S. and Mexico, was funded by the UA School of Anthropology’s Argonaut Archaeological Research Fund, the National Geographic Society, the Instituto Nacional de Antropología e Historia and The Center for Desert Archaeology in Tucson.

Source: Some material for this article was adapted and edited from a University of Arizona press release, Meet the gomphothere: UA archaeologist involved in discovery of bones of elephant ancestor

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Travel and learn with Far Horizons.

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winter2016ebookcover

This richly illustrated issue includes the following stories: Recent findings shedding new light on the whereabouts of the remains of Philip of Macedon, father of Alexander the Great; how an archaeologist-sculptor is bringing bones of the dead back to life; archaeologists uncovering town life at the dawn of civilization; an exclusive interview with internationally acclaimed archaeologist James M. Adovasio about what makes the Meadowcroft Rockshelter prominent in the ongoing search for the first Americans; what archaeologists are finding at the site of the ancient city of Gath, the home town of the biblical Philistine giant, Goliath; and how scientists are redrawing the picture of human evolution in Europe.  Find it on Amazon.com.

 

 

 

 

 

Rewriting Human Evolution

It is a cave within a cave, dark and silent.

But when the scientists are there, it is artificially lit, revealing a chamber just four meters wide, created by nature at the terminus of a natural vertical 13-meter subterranean karstic shaft. Spelunkers and scientists call it the “chimney”, and for good reason—it’s a bit like negotiating down the interior of a house chimney. Entering the shaft can only be done by traversing through yet another, much larger cave—Cueva Mayor—part of a larger karstic mountain complex in northern Spain called Atapuerca. Atapuerca is important because here in the caves of these mountains scientists have found fossils and stone tools of some of the earliest known humans in Western Europe, and this small cave at the end of the vertical shaft is arguably the star of the show. Here, over a period of 30 years, teams of archaeologists and other specialists have excavated nearly 7,000 human fossils of at least 28 individuals, individuals who lived more than 400,000 years ago. Aptly named Sima de los Huesos (“Sima”), or “Pit of Bones”, it is to date the largest single assembly of early human fossil remains ever found at any single location………

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simasiteA team at work inside the cave: The Sima de los Huesos site. Image courtesy Javier Trueba / Madrid Scientific Films

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Game of Thrones

For Juan Luis Arsuaga, it has been perhaps the quintessential journey of his career. Currently a professor in the Paleontology Department at the Universidad Complutense de Madrid, since 1982 he has been a member of a research team investigating Pleistocene deposits in the Atapuerca Mountains. Most recently, the revelation precipitated by his most recent findings at the Sima de los Huesos (‘Sima’) site has stirred the scholarly world of human evolution studies. It centers on 17 skulls.

“An astonishing collection of skulls (up to 17) belonging to a single population, or paleo-deme, of a fossil hominin species has been recovered,” says Arsuaga. “This incredible discovery of skulls is unprecedented.” Dating to 430,000 years ago and among the most complete fossil skulls recovered from any site, “this unique collection has to be compared with the much more fragmentary and generally isolated remains yielded by other Middle Pleistocene sites in Europe and out of Europe.” 

It offered Arsuaga and his team a unique opportunity to study a scene on the stage of the evolution of Middle Pleistocene humans. These 17 skulls, according to Arsuaga and colleagues, represented a single population of a hominin (early human) species. Although some of them had been studied before, seven have been presented anew, and six are now more complete than ever before, after many hours of painstaking assemblage in the lab. With these mostly intact samples for study, the researchers have finally been able to more clearly define the common features of this population.

Most striking, the examiners found that the fossils exhibited a mosaic of physical characteristics that could not be wholly attributed to any single, recognized human species to date. The skull samples showed clear Neanderthal features in the face and teeth. The researchers suggested the ‘Neanderthal-derived’ features were functionally related to mastication, or chewing. “It seems these modifications had to do with an intensive use of the frontal teeth,” Arsuaga said. “The incisors show a great wear as if they had been used as a ‘third hand,” typical of Neanderthals.” But elsewhere, the skulls showed characteristics that diverged from the Neanderthal model. The braincase itself, for example, still showed features associated with more primitive hominins.

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simaarsuageProfessor Juan Luis Arsuaga holds newly excavated early human fossil inside Sima de los Huesos cave. Image courtesy Javier Trueba / Madrid Scientific Films

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simasite2Location of skull 17 at the Sima de los Huesos site. Image courtesy Javier Trueba / Madrid Scientific Films

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So what did these findings mean?

“Morphologically, the Sima de los Huesos skulls exhibit some (generally incipient) Neanderthal traits,” said Arsuaga. “These traits have been scrutinized to understand how the Neanderthal specializations developed……..and it is now clear that the full suite of Neanderthal characteristics did not evolve at the same pace.”

However, according to Arsuaga,”we think based on the morphology that the Sima people were part of the Neanderthal clade, although not necessarily direct ancestors to the classic Neanderthals.”

“One thing that surprised me about the skulls we analyzed,” Arsuaga continued, “is how similar the different individuals were. The other fossils of the same geological period are different and don’t fit in the Sima pattern. This means that there was a lot of diversity among different populations in the Middle Pleistocene.”

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simaskull15reconstructionReconstruction of skull 15. Image courtesy Javier Trueba / Madrid Scientific Films

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simaskull17reconstructionReconstruction of skull 17. Image courtesy Javier Trueba / Madrid Scientific Films

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simaskull9Reconstructed skull 9 of the 17 skulls found at the site. Image courtesy Javier Trueba / Madrid Scientific Films

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simaskull15Skull 15. Image courtesy Javier Trueba / Madrid Scientific Films

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simaskull17Skull 17. Image courtesy Javier Trueba / Madrid Scientific Films

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In other words, because other European Middle Pleistocene fossil specimens found in Europe have not exhibited the combination of features seen in this fossil group, the researchers have concluded that more than one evolutionary lineage appears to have coexisted during the European Middle Pleistocene, with that represented by the Sima sample being closer to the Neanderthals. 

We propose what we call the “Game of Thrones theory” to explain hominin evolution in Europe and a part of Asia in the period known as the Middle Pleistocene (780,000 years ago to 130,000 years ago),” said Arsuaga. “According to this scenario, hominin evolution was not a peaceful and “boring” process of very slow change throughout time and across an immense land: the European continent and Western and Central Asia. There was not simply one kind of hominin living in that big territory and quietly evolving everywhere towards the “classic” (Late Pleistocene) Neanderthals.” This early human landscape, at least according to this team of scientists, featured something of a potpouri of morphologically and perhaps culturally distinct human groups or populations. To complicate the picture yet more, the team has found that a DNA study of a bone sample from Sima indicates that these humans shared a common ancestor with the Denisovans (another extinct archaic human species that likely lived in Asia) about 700,000 years ago. “The fact that the mtDNA (mitochondrial DNA) of the Sima de los Huesos hominin shares a common ancestor with Denisovan rather than Neanderthal mtDNAs is unexpected since its skeletal remains carry Neanderthal-derived features”, says Matthias Meyer, a key scientist with the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany, who led the genetic study. Another possibility is that the Denisova genes were introduced from another group of hominins into the Sima hominin population, or their ancestors.

In any case, Arsuaga’s “Game of Thrones” scenario and the genetic study results didn’t fit neatly into the traditional picture of Neanderthal evolution. It shook the applecart—a model that long suggested that Neanderthal traits all evolved in somewhat linear fashion, in unison from an earlier single species, theorized to be Homo heidelbergensis.

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simateamThe Sima de los Huesos team. Image courtesy Javier Trueba / Madrid Scientific Films

 

Changing Paradigms

For those who follow the paths of thinking about how humans became what they are today, the discoveries at Sima are among a number of recent developments in the field and in the labs that are effectuating a new pattern of making and remaking evolutionary paradigms and calling into question some long-standing constructs.

One case in point: Researching a Late Pleistocene site in China, researchers Xiu-Jie Wu, Wu Liu and Song Xing of the Institute of Vertebrate Paleontology and Paleoanthropology, Beijing, Isabelle Crevecoeur of PACEA, Université de Bordeaux, France, and Erik Trinkaus of Washington University in St. Louis, re-examined a circa 100,000-year-old archaic human skull originally found during excavations 35 years ago at the Xujiayao site in China’s Nihewan Basin. The skull belonged to a human species not classified as Neanderthal, but based on their micro-CT scans of the interior configuration of the temporal bone, they found that the inner-ear formation closely resembled the formation long identified exclusively with Neanderthals.

On the surface, this appears to be a small thing. But in the worlds of paleoanthropology and paleontology, especially as they relate to human evolution, the implications are significant, because the temporal labyrinth has been broadly considered a key characteristic that has set Neanderthals apart from earlier and modern humans.

“We were completely surprised,” Trinkaus said. “We fully expected the scan to reveal a temporal labyrinth that looked much like a modern human one, but what we saw was clearly typical of a Neandertal. This discovery places into question whether this arrangement of the semicircular canals is truly unique to the Neandertals.” Moreover, he said, “the discovery places into question a whole suite of scenarios of later Pleistocene human population dispersals and interconnections based on tracing isolated anatomical or genetic features in fragmentary fossils. It suggests, instead, that the later phases of human evolution were more of a labyrinth of biology and peoples than simple lines on maps would suggest……It shows that human populations in the real world don’t act in nice simple patterns.”

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innerear1The Xujiayao 15 late archaic human temporal bone from northern China, with the extracted temporal labyrinth, superimposed on a view of the Xujiayao site. Courtesy Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Science

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The Dmanisi Illumination

David Lordkipanidze has been excavating at the site near the town of Dmanisi in the Republic of Georgia for decades. He is a  paleoanthropologist and Director of the Georgian National Museum. He is best known for the news-making discoveries he has been making at the site, known now in the popular literature and press after its namesake town. It was here, in 1991, when he and his team of researchers first uncovered a remarkable fossilized mandible (the lower jaw). It appeared to be human—but quite different from a modern human mandible. It was more like what scientists had been finding for decades only in East and South Africa—fossils of what paleoanthropologists know to be some of the earliest members of our kind—genus Homo—the genus that includes modern humans and species closely related to them—human ancestors that lived between 1 million and 2 million years ago. Scientists began scratching their heads. Geographically, this fossil appeared to be several thousands of miles off course. And the associated stone tools resembled the earliest known stone tool technology, the Oldowan, found, until now, only in Africa.  It challenged the long-accepted models of a significantly later first exodus of early Homo out of Africa, more advanced Homo erectus groups who carried with them a more sophisticated technology, the Acheulean, a 1.5+ million-year-old tradition forged in Africa and best known for its hallmark, distinctive oval and pear-shaped handaxes.  

What followed was a series of incredible discoveries that, together, proved to shake up the world of human prehistory almost without parallel. Three other remarkably complete and well-preserved fossil skulls, including an assortment of other fossils, were unearthed and pieced together during the ensuing years.

But the latest find brought yet new surprises.

In 2005, Lordkipanidze and his team uncovered yet another well-preserved early Homo fossil. Designated as specimen ‘D4500′, it turned out to be the matching cranium to another fossil find uncovered 5 years earlier—a complete mandible they designated ‘D2600’. These two fossils were discovered alongside the remains of the four other early Homo fossil skulls, animal fossils, and the simple Oldowan-like stone tools. Designated Skull 5, the new cranium together with its mandible displayed a relatively small braincase with a long face and large teeth. Other similar early Homo fossils, all found in African contexts, were either incomplete, or adolescent or younger individuals. According to Lordkipanidze and his associates, this new find constituted “the most complete adult skull known from Early Pleistocene Homo.* Moreover, like some of the other finds, it was associated with other parts of the body that exhibited characteristics akin to Homo erectus body engineering, which closely approximates that of modern human morphology. In other words, this species had a very human-like body.

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dmanisihomoThe Dmanisi early Homo cranium (D4500) in situCourtesy Georgian National Museum

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dmanisihomo8The Dmanisi D4500 early Homo cranium and a large rodent tooth in situ. Associated fauna, such as the tooth from a rodent species that lived 1.8 million years ago, helped to date the find. Courtesy Georgian National Museum

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dmanisihomo9The Dmanisi D4500 early Homo cranium and ancient herbivore fossil remains in situ. Courtesy Georgian National Museum

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DmanisiskullThe complete Skull 5. Courtesy Guram Bumbiashvili, Georgian National Museum

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Skull 5 was another first. But the biggest revelation came not with the latest fossil, but with what the fossils collectively had to say about human evolution. Now, with fossil finds that represented five distinct individuals, it was the first time that such an assembly of Early Pleistocene Homo fossils were found together within the same time and space context. No other site, in Africa or elsewhere, could boast of such a collection. The Dmanisi discoveries meant that scientists could study a range of variation in human species within the context of one place and time range, a relative mother lode of information that could potentially clarify, and perhaps even revolutionize, how we see these earliest of Homo human ancestors. 

The researchers set to work. And the result of their study was startling. Lordkipanidze and his colleagues summarize it well in the following words in a recent report published in Science

Geometric morphometric analysis and re-sampling statistics show that craniomandibular shape variation among the Dmanisi hominids is congruent with patterns and ranges of variation in chimpanzee and bonobo demes [a population of one species](Pan troglodytes troglodytes, P. t. verus, P. t. schweinfurthii, and P. paniscus) and in a global sample of H. sapiens. Within all groups, variation in cranial shape is mainly due to interindividual differences in size and orientation of the face relative to the braincase. The Dmanisi sample, including skull 5, thus represents normal within-deme variation, ranging from small-faced relatively orthognathic (typically female and/or subadult) individuals to large-faced relatively prognathic (typically male) individuals.*

In other words, after examining the remains, the research team concluded that the differences among these fossils vary no more than the differences between five modern humans or five chimpanzees. 

“Thanks to the relatively large Dmanisi sample, we see a lot of variation,” said Christoph Zollikofer from the Anthropological Institute and Museum in Zurich, Switzerland—a co-author of the Science report. “Had the braincase and the face of Skull 5 been found as separate fossils at different sites in Africa, they might have been attributed to different species.”

Historically, variations among Homo fossil finds in Africa and Asia have also been found, but these differences have normally not been found within the same spatial and time period context, and thus scientists have classified the various finds as belonging to separate species. But now, according to Lordkipanidze and his colleagues, what has previously been thought to be separate ancient human species — Homo erectusHomo habilisHomo rudolfensis, and Homo ergaster, for example — may actually be variations or sub-species of one and the same species.

The upshot: Researchers now need to re-adjust their thinking and proceed more cautiously when determining how early Homo fossils are classified. 

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dmanisihomo5-003Dmanisi Skulls 1-5 (left to right), showing the individual variations, and a Dmanisi landscape. Courtesy M. Ponce de León and Ch. Zollikofer, University of Zurich, Switzerland

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Redefining the Ape/Human Transition

raymonddart

It was Raymond Dart who started it all. Back in 1925, publication of his findings in the journal Nature of the skull of a 3-year-old, now famously known as the Taung Child (named after its initial recovery from the Taung lime quarry in South Africa), led to a human fossil-hunting regime that has continued and expanded to this day. His discovery launched the worldwide effort to uncover the first ‘proto-human’ species, a genus that, for the evolutionists, stood somewhere between the apes and humans on the traditional time-line of evolutionary progression within the Primate Order. Dart assigned his find to a new genus, Australopithecus (“Southern Ape”).  Discoveries by other scientists at various sites across Africa followed, leading to new species classifications—Australopithecus (Au.) afarensis, Au. anamensis, Au. bahrelghazali, Au. garhi. Scientists on the Australopithecus trail were beginning to come to some arguable consensus about what the direct ancestor to the Homo line would look like—until Malapa.

It dominated science headlines when the news was first released. The discovery of the remains of a new species of ancient hominin (human ancestor) revealed a candidate that sported a mosaic of features both ape-like and human — an unprecedented 2-million-year-old hybrid called Australopithecus sediba (Au. sediba). First stumbled upon in 2008 by Professor Lee Berger of the University of the Witwatersrand and his then 9-year-old son Matthew at the fossil bearing site of Malapa in South Africa, the finds, consisting of remarkably complete skeletal remains as well as other well-preserved fauna and flora, instantly became the subject of perhaps the most intense and thoroughly studied hominin fossils ever documented.

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malapasite2Above, the Malapa site, September 4th, 2008, at the moment of the discovery of the fossilized female skeleton MH2. Photo courtesy of Lee Berger and the University of the Witwatersrand, under Creative Commons attribution license.

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malapaskullThe U.W. 88-50 (MH 1) cranium. The cranium forms part of the holotype skeleton of Australopithecus sediba from the Malapa site, South Africa. This image relates to an article that appeared in the April 9, 2010, issue of Science, published by AAAS. The study, by Dr. L.R. Berger of University of the Witwatersrand in Johannesburg, South Africa, was titled, “Australopithecus sediba: A New Species of Homo-like Australopith from South Africa.” Photo by Brett Eloff courtesy of Lee Berger and the University of the Witwatersrand.

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malapaskeleton

 SKELETAL LAYOUT OF MH1 AND MH2, the first two skeletal specimens unearthed at Malapa by Lee Berger and his team.; Image produced by Peter Schmid taken from Berger et al 2010. Australopithecus sediba: A new species of Homo-like australopith from South Africa, Science 320:195-204. 

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The team, led by Berger and composed of South African and international scientists from the Evolutionary Studies Institute (ESI) at the University of the Witwatersrand (Wits) and 16 other global institutions (totalling more than 100 researchers from around the world), examined the anatomy of Au. sediba based on its skeletons catalogued as “MH1” (a juvenile skeleton) and “MH2” (an adult female skeleton), as well as an adult isolated tibia catalogued as “MH4”. Dispersed among separate studies, the examinations determined, more than any other Australopithecus findings to date, the essence of how this hominin looked, walked, chewed and moved, complicating and changing perspectives on the evolution of the australopith forerunner genus in human ancestry:

Au. sediba’s teeth

The first study, led by Professor Joel Irish from the Research Centre for Evolutionary Anthropology and Palaeoecology at Liverpool John Moores University in the United Kingdom, examined dental traits in the fossils.

In this study, Irish, Debbie Guatelli-Steinberg of the Ohio State University and their colleagues examined the teeth from sediba and compared them to eight other African hominin species, which include modern humans from Africa, and extinct species of HomoAustralopithecus, and Paranthropus. In all, the researchers examined more than 340 fossils and 4,571 recent specimens. They also examined teeth from 44 gorillas for comparison.

Based on the examination, Irish and his colleagues suggested that the species is distinct from east African australopiths, but is close to Au. africanus, thus forming a southern African australopith “clade” (a group consisting of an ancestor and all its descendants).

The latter, in turn, shares a number of derived states or physical characteristics with a clade comprising four fossil samples of the genus Homo. This surprising result has significant implications for our present understanding of hominin phylogeny (the evolution of the species), and alludes to the possibility that Au. sediba, and perhaps Au. africanus are not descendant from the Au. afarensis lineage, represented most prominently by the famous “Lucy” skeleton discovered by Donald Johanson in Ethiopia in 1974, as had been widely hypothesized.

“Our research on teeth can’t definitively settle if either sediba or africanus is more closely related to humans than the other species,” Guatelli-Steinberg said. “But our findings do suggest that both are closely related to each other and are more closely related to humans than afarensis.”

Irish noted that even though the results of this study were surprising and were bound to be viewed as controversial given the long held hypotheses relating to the origins of the genus Homo, the genus more directly ancestral to humans, he would have come to the same conclusion. “The extreme age and rarity of these fossils naturally draws enhanced interest in and scrutiny of any new findings”, he said. “Based on the evidence, I would have come up with the same conclusions whether the samples were three million or 30 years old.”

But the surprises were not over regarding the teeth. A later laser scanning study on the teeth by researchers at the Max Planck Institute of Evolutionary Anthropology in Leipzig, Germany and the University of *Colorado Boulder showed that sediba had a diet unlike other known early human ancestors. That study indicated that sediba ate harder foods than other early hominids, focusing on trees, bushes and fruits, in contrast to most  other ancient human ancestors fossils examined from Africa, including Paranthropus boisei, also known as “Nutcracker Man” because of its massive jaws and teeth, which targeted grasses and sedges.

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australopithecusteethAu. sediba skull showing teeth. Courtesy Paul Sandberg, University of Colorado

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Sediba’s jaw 

Professor Darryl de Ruiter of Texas A&M and the Evolutionary Studies Institute at the University of the Witwatersrand, and his colleagues, examined the mandibular (lower jaw) material from the Sediba MH2 individual.

The study concluded that the mandibular remains share similarities with other australopiths, but differ from Au. africanus in both size and shape, as well as in their growth trajectory.

“These results add further support to the claim that Au. sediba is taxonomically distinct from the temporally – and geographically – close species Au. africanus. Where the Au. sediba mandibles differ from those of Au. africanus, they appear most similar to representatives of early Homo,” says De Ruiter.

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malapajawReconstruction of the MH1 skull, highlighting lower jaw and teeth. Reconstruction by Kristian Carlson, courtsey of Lee R. Berger and the University of the Witwatersrand.

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Sediba’s upper limbs 

Professor Steven Churchill of Duke University and the Evolutionary Studies Institute at University of the Witwatersrand examined the upper limb elements of Au. sedibaThey noted that with the exception of the hand skeleton (which exhibited a suite of features that may signal enhanced manipulative capabilities compared to earlier australopiths), the upper limbs of Sediba were largely primitive in their morphology (physical characteristics). Au. sediba thus shared with other australopiths an upper limb that was well-suited for arboreal or other forms of climbing and possibly suspension, and perhaps even more than had been previously suggested for any other member of the australopith genus.

Churchill adds that “it is possible that the climbing features in the skeleton of Australopithecus sediba and other australopiths are functionally unimportant primitive traits retained from a more arboreal ancestor. Even so, it is curious that these features persist unchanged for several million years, only to abruptly disappear with the emergence of the genus Homo.”

That question perhaps awaits answers through future finds and research.

Sediba’s rib cage 

Dr. Peter Schmid and colleagues at the Evolutionary Studies Institute at the University of the Witwatersrand and the University of Zurich studied the remains of Sediba’s thorax, or rib cage. Their findings revealed a narrow upper thorax, much like that of the large-bodied apes, and unlike the broad, cylindrical chest characteristic of humans. In conjunction with the largely complete remains of the shoulder girdle, Schmid notes that “the morphological picture that emerges is one of a conical thorax with a high shoulder joint that produces in Au. sediba an ape-like “shrugged” shoulder appearance, and thus a configuration that is perhaps uniquely australopith, and that would not have been conducive to human-like swinging of the arms during bipedal striding and running”.

Their research, however, showed that the less well-preserved elements of the lower rib cage suggested some degree of human-like narrowing to the lower thorax, a surprising feature that is not like that of Homo erectus or modern humans. 

The vertebral column 

Dr. Scott Williams of the Center for the Study of Human Origins at New York University and colleagues examined the vertebral column of Au. sediba. They described a remarkably articulated lumbar vertebral region that showed a human-like curvature of the lower back. Williams noted that “the adult female is the first early hominin skeleton that preserves an intact terminal thoracic region and this provides critical information on the transition in inter-vertebral joints, and, by inference, mobility of the lower back”.

The study also demonstrated that Au. sediba had the same number of lumbar vertebrae as modern humans, but possessed a functionally longer and more flexible lower back. In addition, the morphology of Sediba’s lumbar curvature suggested that Au. sediba was more similar to the Nariokotome Homo erectus (the famous “Turkana Boy discovered by Kamoya Kimeu and Richard Leakey) skeleton than to the australopiths.

Sediba’s gait 

Dr. Jeremy DeSilva and colleagues at Boston University and the Evolutionary Studies Institute at the University of the Witwatersrand examined the lower limb anatomy of Au. sediba. 

“The female Australopithecus sediba preserves a heel, ankle, knee, hip and lower back—all of the ingredients necessary to reconstruct how she walked with remarkable precision. Even the famous Lucy skeleton only preserves two of these five (ankle and hip)”, said DeSilva.

The combination of, and the individual anatomies of, the heel, mid-foot, knee, hip, and back are unique and curious, said the team. This defined an australopith that walked with a ‘hyper-pronating gait’ (compared to the modern human gait, feet that pronated or rotated differently during the gait cycle).

“The implications of this study are that multiple forms of bi-pedalism were once practiced by our early hominin ancestors,” added Berger about the DeSilva conclusions.

Sediba’s brain

The exceptionally well-preserved cranium of the MH-1 juvenile was scanned at the European Synchrotron Radiation Facility, the most powerful facility in the world for scanning fossils, under the direction of Dr. Kristian Carlson from the University of the Witwatersrand.  By doing this, he and his colleagues were able to develop a precise map or image of the impressions on the interior surface of the cranium, or brain case, producing an endocast (or 3-dimensional image) of the area where the brain, long decayed into nothing, would have been.

Said Carlson, “the actual brain residing within a cranium does not fossilize. Rather, by studying the impressions on the inside of a cranium, palaeontologists have an opportunity to estimate what the surface of a brain may have looked like. By quantifying how much volume is contained within a cranium, palaeontologists can estimate the size of a brain.”

The results revealed that the brain was human-like in shape, yet much smaller than brain volumes recorded in Homo species. In fact, the size was not significantly more than that of a modern chimpanzee. However, the orbito-frontal region of the brain, which is behind the eyes, showed characteristics of neural (nerve cell structure) reorganization. The researchers suggested that this indicated a “re-wiring” of the frontal lobe’s neural constitution to a pattern more human-like. This questioned the generally-accepted theory of brain enlargement during the transition from Australopithecus to Homo as the most essential consideration and supported the alternate theory that a neural reorganization in the orbitofrontal region made it possible for A. sediba to be more “human-like” with the smaller cranium. Thus, size may not matter more than brain tissue structure and organization.

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malapabrainImage shows a reconstruction of the skull of MH1 (partially transparent) with the brain endocast depicted in green. Dentition also visible and the specimen is viewed from slightly above and anterolateral. Courtesy University of Witwatersrand and Kristian Carlson

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Sediba’s hands for toolmaking  

Tracy Kivell of the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany, and a team of colleagues studied the hand fossils of MH-2, the adult female Au. sedibaThey determined that the hand exhibited a strong flexor capability, good for tree-climbing. However, the hand also featured a long thumb and short fingers, a clear requirement for precision gripping, or gripping that involves the more refined use of the thumb and fingers and not the palm. This suggested that Au. sediba had the mechanical capability to make tools.

According to Kivell:

“The hand is one of the very special features of the human lineage, as it’s very different from the hand of the apes. Apes have long fingers for grasping branches or for use in locomotion, and thus relatively short thumbs that make it very difficult for them to grasp like a human.

Au. sediba has, in contrast, a more human-like hand that has shortened fingers and a very long thumb. Although at the same time, it appears to have possessed very powerful muscles for grasping. Our team interpreted this as a hand capable of tool manufacture and use, but still in use for climbing and certainly capable of human-like precision grip.”

These findings pair Au. sediba with Homo habilis, the famous “handy man” Australopithecine discovered by Louis and Mary Leakey in the 1960’s, as a hominin or early human candidate capable of making tools. It also suggests that there were more than one ancient hominin species that may have produced tools, either during different time periods, overlapping time periods, or concurrently in time.   

To date, no stone tools have been found in association with the Malapa cave fossils. But excavations will continue, and it is anticipated that much more data will be forthcoming.

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malapahandAll of the right hand bones of Au. sediba rearticulated. Courtesy Peter Schmid

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Sediba’s pelvis

Dr. Job Kibii of the University of the Witwatersrand and associates examined the partial pelvis of MH-2 and found that it also exhibited features that combined primitive elements more akin to that of earlier hominins and apes along with elements more characteristic of humans. They observed that the size of the joint that connects the sacrum with the vertebral column and the length of the front portion of the pelvis is like that of earlier hominins and apes, but the overall shape of the pelvis is short and broad, creating a bowl shape like that of humans, with an s-shape along the top of the blades, another human characteristic. Indeed, simply placing the reconstructed pelvis next to that of an ape and an earlier hominin is very telling. The pelvis clearly appears more human-like than ape-like. 

Said Kibii, “It is surprising to discover such an advanced pelvis in such a small-brained creature because of previous ideas as to the origin of the shape of the human pelvis.”

The generally-accepted theory is that broader pelvises evolved, at least in part, in response to the enlarging brains of hominins, on the assumption that the more human-like pelvis shape more easily accommodated the larger-brained hominin infants in childbirth. The new findings turn this on its head, suggesting that there was another, perhaps more important evolutionary reason why the pelvis changed:

The change in the pelvic morphology accommodates a more bipedal, or erect, gait – a salient hallmark of being human. Says Steven Churchill of Duke University, one of the co-authors of the paper detailing the pelvis study, “What’s cool about sediba is their pelvises are already different from other australopiths, and yet they’re still small-brained… It’s hard to imagine that there’s no change in locomotion behind all this.”

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malapapelvisThe reconstructed pelvis of MH2. Left side is a mirror image. Image created by Peter Schmid, courtesy Lee R. Berger and the University of the Witwatersrand

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Sediba’s feet and ankles

Dr. Bernhard Zipfel of the University of the Witwatersrand and colleagues examined the feet and ankle fossils of MH-1 and MH-2, finding them to consist of a mix of both primitive and modern characteristics unique to Au. sediba as a species. As the ankle fossils represented a very rare and opportune find in that they constituted one of the most complete hominin ankles ever found, and in an articulated position or association, it was feasible to perform a study and reach reasonably sound conclusions about the characteristics of the fossils and their implications. The ankle joint and foot bones were constructed much like a human’s, with some evidence for a human-like arch and a well-defined Achilles tendon. It was also clear that the distal tibia or leg bone had to contact the anklebone perpendicular to the vertical shaft of the leg bone. These are all requirements for habitual bipedal locomotion, or upright walking.

However, the heel and shin bone exhibited more ape-like qualities, suggesting that Au. sediba was also a tree-climber, much like its ape cousins. 

Their overall analysis suggested that Au. sediba likely practiced a unique form of upright walking, not quite like that of humans, along with some degree of tree climbing.

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malapaankleAnkle of Australopithecus sediba. Red is adhering matrix. Image created by Kristian Carlson, courtesy of Lee R. Berger and the University of the Witwatersrand.

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The investigations at the Malapa site have seen the discovery of more than 300 early human ancestor remains, including parts of skeletons still encased in rock. Though there may be much more to come out of Malapa, the finds and their interpretation will likely have a salient impact on how human evolution, particularly at the transition from “ape-man” to Homo, or early human, actually unfolded.

“What these papers suggest is that sediba probably doesn’t come from the east African species that Lucy comes from, Australopithecus afarensis, and it may be considered the best candidate as an ancestor for the genus Homo“, said Malapa project leader Berger……”Such clear insight into the anatomy of an early hominin species will clearly have implications for interpreting the evolutionary processes that affected the mode and tempo of hominin evolution and the interpretation of the anatomy of less well preserved species.”

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compositereconstructionComposite reconstruction of Au. sediba based on recovered material from MH1, MH2 and MH4 and based upon the research presented above. As all individuals recovered to date are approximately the same size, size correction was not necessary. For comparison, small-bodied female modern H. sapiens on left, Male Pan troglodytes on right. Photo by Lee Berger, courtesy of the University of the Witwatersrand

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The New Synthesis

Educated at Harvard University, paleoanthropologist Rick Potts has spent much of his career as an academic and administrator, having taught at Yale University and curated archaeological/anthropological materials at Yale’s Peabody Museum. He now serves as the director of the Smithsonian’s Human Origins Program and curator of anthropology at the National Museum of Natural History.

But this is only part of his world. When he’s not attending to his program and curatorial duties, one would find him in the field, along with teams of other scientists, at locations in the East African Rift Valley or in southern and northern China. These are places where new evidence is now transforming an old paradigm of human evolution in a big way. 

In a recent study published in the journal Science, he and co-author colleagues Susan Antón, professor of anthropology at New York University, and Leslie Aiello, president of the Wenner-Gren Foundation for Anthropological Research, report results from comprehensive research on shifting paleoclimates, ancient stone tools, isotopes found in teeth, and cut marks found on animal bones in East Africa. The findings support an emerging new consensus that suggests a rethinking of long-held assumptions about human origins and evolution. 

It begins with questions surrounding early hominin diversity.

“Soon after our genus (Homo) first evolved by about 2.4-2.3 million years ago there were at least three different species of Homo walking the earth: Homo habilisHomo rudolfensis, and slightly later Homo erectus,” explains Briana Pobiner in an article published by the National Museum of Natural History. Pobiner is a Smithsonian paleoanthropologist and researcher who works closely with Potts. “In fact, these species overlapped in time with each other and even with Australopithecus and Paranthropus, two other genera of early humans. Some of their fossils have even been found at the same prehistoric sites. Anatomical traits and behaviors were mixed and matched, with some more human-like features found in some species, and others in different species, which according to the authors indicates that each species utilized a different strategy to survive.”**

In other words, the traits that made us human evolved at different times and in different places. From the beginning, if a clear beginning could be simply defined at all, there was no single evolving package and line of evolution. 

And climate variability was a key driver, maintains Potts. “Unstable climate conditions favored the evolution of the roots of human flexibility in our ancestors. The narrative of human evolution that arises from our analyses stresses the importance of adaptability to changing environments, rather than adaptation to any one environment, in the early success of the genus Homo.”***

It was therefore adaptability to change, not the long-held notion of specialization, that was the ultimate key to human evolution, say the researchers. Potts has called this the variability selection hypothesis, an idea he has actually been advancing for years. It challenges the long-held “savanna hypothesis”, which has suggested that our genus, Homo, emerged and evolved at least in part due to adaptations (such as walking upright, dietary change, a larger brain and body, and making tools) as a result of a major, gradual climate change from a warmer, wetter forest environment on the African continent to a cooler, drier one that resulted in the spread of a savanna grassland.

It has helped to define a new synthesis, at least according to these scientists, that explains a major engine of human evolution, one that ultimately revolves around the ability of our species to adapt, innovate, and even modify the world around us. And this, most scientists of human evolution can agree, is what Homo sapiens have done best, and why they are the lone survivor among an originally diverse line of hominins.

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homoevolution1Between 2.1 and 1.8 million years ago, Homo, exhibited diverse traits. These genus included the Kenyan fossils KNM-ER 1470 (left) and KNM-ER 1813 (second from left). By 1.8 to 1.9 million years ago, Homo erectus evolved in Africa and spread to Eurasia. Early populations of this species are represented by the Kenyan fossil KNM- ER 3733 (right) and the Georgian fossil Dmanisi Skull 5 (second from right). The three lineages — the 1470 group, the 1813 group, and Homo erectus — overlapped in time for several hundred thousand years. From press release of the Smithsonian InstitutionSmithsonian scientist and collaborators revise timeline of human origins, 3 July 2014 Credits: Kenyan fossil casts – Chip Clark, Smithsonian Human Origins Program; Dmanisi Skull 5 – Guram Bumbiashvili, Georgian National Museum

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homoevolution2Hominin evolution from 3.0 to 1.5 Ma. Green: Australopithecus, Yellow: Paranthropus, Red: Homo. The icons indicate from the bottom the first appearance of stone tools at ~2.6 Ma, the dispersal of Homo to Eurasia at ~1.85 Ma, and the appearance of the Acheulean technology at ~1.76 Ma. The number of contemporaneous hominin taxa during this period reflects different strategies of adaptation to habitat variability. The cultural milestones do not correlate with the known first appearances of any of the currently recognized Homo taxa. Text and Image courtesy of Antón et al., Science/AAAS 2014 and related press release.

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homoevolution3Evolutionary timeline of important anatomical, behavioral and life history characteristics that
were once thought to be associated with the origin of the genus Homo or earliest H. erectusImage courtesy of Antón et al., Science/AAAS 2014

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Going forward, Potts and his colleagues know that nothing stays the same when it comes to building theories and models—with each new discovery, a new twist can be introduced, or an entire theory can be called into question. But in science, everything is open to question. It is the “nature of the beast”, so to speak. 

In any case, what they are finding may have implications for the present and the future of human survival. Global warming comes to mind, here. Potts and his colleagues at the Smithsonian’s Human Origins Program have eloquently summarized the challenge well:  

The question ahead is how well our sources of resilience as a species will succeed as our alterations of the landscape, atmosphere, and water interact with the tendency of Earth’s environment to shift all on its own. This is an ‘experiment’ just now unfolding, one that has never occurred before. The intensity of environmental change seems likely to create entirely new survival challenges for the lone hominin species on the planet, and many other organisms as well.****

__________________________________________________

* David Lordkipanidze, et al., A Complete Skull from Dmanisi, Georgia, and the Evolutionary Biology of Early Homo, Science 342:326-331, 2013.

** Pobiner, Briana, The traits that make us human evolved at different times, Unearthed, National Museum of Natural History, Smithsonian Institution (website page)

*** From a press release of the Smithsonian InstitutionSmithsonian scientist and collaborators revise timeline of human origins, 3 July 2014

****From Climate Effects on Human Evolution, the Smithsonian Human Origins Program website: What does it mean to be human?

Popular Archaeology Magazine Fall Issue Released

Popular Archaeology Magazine is proud to release its new Fall issue on September 1, 2014. This issue will feature developments and discoveries that are changing the way we look at our past. Our main feature story, “Rewriting Human Evolution”, relates how scientists are uncovering evidence that is overturning or reshaping our understanding of how humans evolved; “The Girl in the Cave” relates the story of one major discovery in Mexico’s Yucatan that is shedding new light on the origins of the first Americans; “The Mummy Doctors” highlights the amazing work of conserving and exploring priceless artifacts and mummies of ancient Egypt at the Penn Museum and what we are learning about ancient life-ways (article available to the public); “Merenptah Rising” reveals the Penn Museum’s plans to restore and reinstall the massive throne room of an ancient Egyptian pharaoh (article available to the public); Prof. Christofillis Maggidis writes about new discoveries at the largest Mycenaean citadel in the world (available under a regular free subscription); free-lance writer and archaeologist Rebecca Bradshaw tells us about the emerging new discoveries in Iraqi Kurdistan that are revealing how much we still don’t know about ancient Mesopotamia; and free-lance writer Julie Masis relates the story of wall paintings at the iconic temple of Angkor Wat that went unnoticed by the world…….until now. 

Other stories include book reviews and a video featuring a joint discussion about human evolution by Richard Leakey and Donald Johanson, the most renowned scientists of the field.

The online publication of this issue will be followed later by the ebook version which can be purchased at Amazon.com and a first-time print edition of the magazine for those who wish to subscribe to the print edition.

See the new Fall online issue here.

____________________________________

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Rock Engraving Made by Neanderthals, Suggests Study

Scientists studying a curious rock engraving in the seaside Gorham’s Cave in Gibraltar are suggesting that its cross-hatched impression was created by Neanderthals and represents their capacity for abstract expression.

While excavating a layer of deposits dated within a range between 38,500 and 30,500 cal kyr BP (using radiocarbon dating), Ruth Blasco of the Gibraltar Museum and colleagues eventually came down to a layer pre-dating 39,000 BP consisting of bedrock that featured what appeared to be an intentional cross-hatch engraving. The engraving was found on a rock platform at an elevation of 40 cm above the cave floor and consisted of deeply engraved lines forming a criss-cross pattern. 

“Here we present the first known example of an abstract pattern engraved by Neanderthals,” summarizes Blasco, et al., in their study report. “This discovery demonstrates the Neanderthals’ capacity for abstract thought and expression.”*

How they came to this determination stems from several different findings and considerations. First of all, excavation of undisturbed overlying sediments between 1997 and 2005 and then again in 2011 and 2012 yielded Mousterian stone artifacts, a type of stone tool technology typically associated with Neanderthals. They dated the finds using radiocarbon dating techniques to a time range later than 39,000 years BP. Geochemical analysis of the engravings also indicated that the engravings had to pre-date the overlying sediments. Moreover, microscopic and morphometric analysis of the engravings, as well as the making of experimental incisions using different stone tools and producing 3D reconstructions of the pattern and individual groove sections, indicated that the engravings were likely human-made. “The engraved pattern differs strikingly from the 1- to 4-cm–deep alteration cracks and other networks of natural fissures present on the exposed surfaces of the fine-grained lime-dolostone of the cave,” wrote the researchers in the report.*

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gorhamscave2Neanderthal rock engraving from Gorham’s Cave, Gibraltar. Image courtesy of Stuart Finlayson.

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The archaeological finds of Gorham’s Cave are controversially famous for their attribution to Neanderthals, suggested by some scientists to have inhabited the cave less than 40,000 years ago, a time by which many scholars think Neanderthals would have already become extinct, at least in present-day Western Europe. Gorham’s Cave has therefore become popularly albeit arguably known as the place where the “last Neanderthals” made their “last stand”, so to speak, before complete extinction. Now, with the discovery of what these researchers suggest to be symbolic engraving, these Neanderthals may have possessed a cognitive capacity that has long been exclusively attributed to modern humans, who are theorized to have arrived on the European scene around 40,000 years ago.

The suggestion that Nenderthals were capable of cave art, such as wall paintings and engravings, has long been debated, with other sites exhibiting possible signs of this cognitive capacity, such as El Castillo Cave in Spain, where painted dots dated to before 40,000 years BP point back to a possible Neanderthal authorship. The absence of associated archaeological remains at this site, however, has left room for doubt that the El Castillo paintings could be assigned to Neanderthals.

The detailed study report is published in the Proceeedings of the National Academy of Sciences.*

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*“A rock engraving made by Neanderthals in Gibraltar,” by Joaquín Rodríguez-Vidal et al.

Cover Photo, Top Left: Gorham’s Cave, photographed from Governor’s Beach, Gibraltar. Image courtesy of Clive Finlayson.

__________________________________________

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Scientists Reveal the Genetic Prehistory of the New World Arctic Peoples

Much has been said and reported about studies and discoveries focusing on searching for the first Americans. Less popularized but equally important has been the ongoing research related to illucidating the picture of how and when the Arctic, the last region of the Americas known to have been populated, was settled.

Archaeological and cultural evidence points to migrations of several different groups, the Paleo-Eskimos, Neo-Eskimos, and Inuits, into the region, going back as far as 6,000 years ago for the earliest arrivals of the Paleo-Eskimos from across the Bering Strait from Siberia.

Now, Maanasa Raghaven of the University of Copenhagen and colleagues have tested this scenario by conducting genomic sequencing on extractions of 169 ancient human bone, teeth and hair samples from Arctic Siberia, Alaska, Canada, and Greenland. They compared them to the same from two present-day Greenlandic Inuit, two Nivkhs, one Aleutian Islander, and two Athabascans.

What they found provides a new picture of the population history of the North American Arctic. Their analyses supports the model of the arrival of Paleo-Eskimos into North America as a separate migration from those which gave rise to Native Americans and Inuit. But the results also suggested they shared a common Siberian ancestor.

“We show that Paleo-Eskimos (~3000 BCE to 1300 CE) represent a migration pulse into the Americas independent of both Native American and Inuit expansions,” write Raghaven, et al. “Furthermore, the genetic continuity characterizing the Paleo-Eskimo period was interrupted by the arrival of a new population, representing the ancestors of present-day Inuit, with evidence of past gene flow between these lineages. Despite periodic abandonment of major Arctic regions, a single Paleo-Eskimo metapopulation likely survived in near-isolation for more than 4000 years, only to vanish around 700 years ago.”*

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peoplingarctic3Qajaa, a grass-covered deep-frozen midden with remains from Early Paleo-Eskimo cultures to the 19th century CE. Ilulissat Icefjord, West Greenland. Courtesy Claus Andreasen

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peoplingarctic2Looking for ancient human remains in northern Greenland. Courtesy Claus Andreasen

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peoplingarctic1Modern-day Canadian Inuit and their environment. Courtesy Carsten Egevang

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Moreover, the researchers show evidence for gene flow between the Paleo-Eskimos and the Neo-Eskimo Thule culture, though it is likely to have occurred in Siberia, among the two groups’ common ancestral population, and not in the Arctic, where these two groups were largely separated.

The study suggests a complex interplay between genes and culture, helping to provide a clearer picture of how the Arctic was settled.

The study is published as a research article in the journal Science.

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*“The genetic prehistory of the New World Arctic,” by M. Raghavan at University of Copenhagen in Copenhagen, Denmark, and colleagues.

 Source: Part of this article was adapted and edited from an AAAS press release, Genetic Data Sheds Light on Early Peopling of North American Arctic.

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Wooden Roman Toilet Seat Found in U.K.

Finding something that one can personally relate to is always a special moment on an archaeological dig. At the 1st-2nd century Roman site of Vindolanda this is a common occurrence, a site where archaeologists have uncovered not only gold and silver and artifacts relating to the military might of the Roman Army, but also everyday items which nearly 2,000 years later have acquired extraordinary value to modern day visitors, volunteers and archaeologists alike. Personal letters, worn shoes, baby booties, socks, combs, jewellery, tools and textiles are just some of the items preserved in remarkable condition, providing a unique window into the lives of people stationed at this most northern outpost of the Roman Empire.   

Now archaeologists have discovered another piece of the very personal human hoard at Vindolanda—a wooden latrine (toilet) seat, discovered by the Director of Excavations, Dr. Andrew Birley, in the site’s deep pre-hadrianic trenches. There are many examples of stone and marble seat benches from across the Roman Empire, but this is believed to be the only surviving wooden seat, almost perfectly preserved in the anaerobic, oxygen free, conditions which exist at Vindolanda. Although this wooden seat is not as grand as a marble or stone toilet bench, it would have been far more comfortable to sit on in the cool climate of Britannia. The seat has clearly been well used and was decommissioned from its original purpose and discarded amongst the rubbish left behind in the final fort at the site before the construction of Hadrian’s Wall began in the early second century.

“There is always great excitement when you find something that has never been seen before and this discovery is wonderful….’” said Birley. “We know a lot about Roman toilets from previous excavations at the site and from the wider Roman world which have included many fabulous Roman latrines, but never before have we had the pleasure of seeing a surviving and perfectly preserved wooden seat. As soon as we started to uncover it there was no doubt at all on what we had found. It is made from a very well worked piece of wood and looks pretty comfortable. Now we need to find the toilet that went with it as Roman loos are fascinating places to excavate – their drains often contain astonishing artefacts. Let’s face it, if you drop something down a Roman latrine you are unlikely to attempt to fish it out unless you are pretty brave or foolhardy.” Discoveries at Vindolanda from latrines have included a baby boot, coins, a betrothal medallion, and a bronze lamp.

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toiletseat1The toilet seat still in situ. Courtesy Vindolanda Trust

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toiletseat2Archaeologists excavating and working on the toilet seat discovery. Courtesy Vindolanda Trust

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Archaeologists now need to find a ‘spongia’, the natural sponge on a stick which Romans used instead of toilet paper. With over 100 years of archaeology remaining along with the site’s unique conditions for the preservation of organic finds, a discovery may be possible.

The wooden seat will take up to 18 months to conserve and once this process is complete the artefact will be put on display at the Roman Army Museum.

Roman Vindolanda is regarded as the most exciting archaeological site in Europe with its wealth of archaeological remains and ongoing excavations. Vindolanda is home to the world famous Vindolanda Writing Tablets. Voted as Britain’s top archaeological treasure by the British Museum, these thin hand-written wooden notes have revealed an astonishing amount of first-hand information about the people who lived at this site 2,000 years ago.

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Source: Adapted and edited from a press release of the Vindolanda Trust, Earliest known wooden toilet seat discovered at Vindolanda’.

The Vindolanda Trust is an independent archaeological charitable trust, founded in 1970. The Vindolanda Trust does not receive any annual funding and relies on the visitors to both Roman Vindolanda and the Roman Army Museum to fund its archaeological, conservation and education work.

Roman Vindolanda and the Roman Army Museum are both situated in the heart of the Hadrian’s Wall World Heritage Site. Roman Vindolanda is just to the north of the village of Bardon Mill and the Roman Army Museum is next to the village of Greenhead.

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discovery2014cover2

Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Study Shows Advantage of Stone-Tipped Spears for Prehistoric Humans

An experimental study shows that stone-tipped spears do not penetrate as deep into prey as sharpened wooden spears, but cause more damage.

Jayne Wilkins of Arizona State University and colleagues shot six stone-tipped and six sharpened wooden spears at gelatin to test whether stone-tipped weapons penetrated deeper in the gelatin. They then analyzed the penetration depth and damage each weapon caused in over 200 wound tracks. Their results demonstrated that tipped spears did not penetrate deeper into gelatin than untipped spears, but they did create a significantly larger and wider wound cavity. This cavity may have increased the relative “killing power” of the tipped spear, and they may have ultimately caused more damage.

The researchers suggested that tipped spears may have provided an advantage over wood-tipped spears for modern human and Neandertal ancestors about 500,000 years ago, potentially affecting the hunting success, resulting in important implications for human adaptation and life history.

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stonetippedspears

These are the tips of spears featured in the experiment. Credit: Jayne Wilkins et al.  Credit: Jayne Wilkins et al.

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Sais Wilkins, “Hafting a stone point to the end of spear was an important innovation that changed life for Pleistocene humans. Humans with stone-tipped spears were more likely to kill the game that they targeted, and were able to secure high quality food resources more frequently and regularly.”

The study is published in the open-access journal PLOS ONE. The detailed study paper can be accessed at http://dx.plos.org/10.1371/journal.pone.0104514.*

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* Wilkins J, Schoville BJ, Brown KS (2014) An Experimental Investigation of the Functional Hypothesis and Evolutionary Advantage of Stone-Tipped Spears. PLoS ONE 9(8): e104514. doi:10.1371/journal.pone.0104514

Source: Adapted and edited from a PLOS ONE news release: Stone-tipped spears more damaging than sharpened wooden spears

__________________________________________ 

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Wine and herbal residues found in Bronze Age palace cellar jars

In 2013, while excavating within the palace ruins of Tel Kabri, a 75-acre ancient Canaanite city site in northern Israel that dates back to 1700 BCE, a joint American-Israeli team came across a three-foot-long jar. They later christened it “Bessie.” The single find by itself was nothing remarkable. But they kept digging.

“We dug and dug, and all of a sudden, Bessie’s friends started appearing—5, 10, 15, ultimately 40 jars packed in a 15-by-25-foot storage room,” said excavation co-director Dr. Eric Cline, chair of George Washington University’s Department of Classical and Near Eastern Languages and Civilizations within the Columbian College of Arts and Sciences. “This is a hugely significant discovery—it’s a wine cellar that, to our knowledge, is largely unmatched in its age and size.”

The 40 jars, each of which could have held 50 liters, had a total capacity of about 2,000 liters, meaning the cellar could have held the equivalent of nearly 3,000 bottles of red and white wine. This places the cellar among the largest ancient wine cellars in the world.

The finds were made while they were digging an area adjacent to and west of a monumental building first excavated in 2011, a one-of-kind structure that was lined with precisely-shaped orthostat blocks.

“This is the largest concentration to date of restorable pottery found anywhere in the palace of Kabri and the only place on site where we have found an entire room still full of artifacts,” writes co-director Yasur-Landau and colleagues in their preliminary report. Yasur-Landau is chair of the Department of Maritime Civilizations at the University of Haifa. 

They add that it is “the first time that such a storeroom with jars still present has been uncovered within an MB (Middle Bronze Age) palace in Canaan.”

What is more, “the wine cellar was located near a hall where banquets took place, a place where the Kabri elite and possibly foreign guests consumed goat meat and wine,” said Yasur-Landau. “The wine cellar and the banquet hall were destroyed during the same violent event, perhaps an earthquake, which covered them with thick debris of mud bricks and plaster.”

At first, it wasn’t clear that the jars once contained wine. To determine that, Dr. Koh, an assistant professor of classical studies at Brandeis University and associate director of the excavation, analyzed the jar fragments using organic residue analysis. He found traces of tartaric and syringic acids, both key components in wine, as well as compounds suggesting the presence of ingredients popular in ancient wine-making, including honey, mint, cinnamon bark, juniper berries and resins. The recipe is similar to medicinal wines used for 2,000 years in ancient Egypt.

“This wasn’t moonshine that someone was brewing in their basement, eyeballing the measurements,” Dr. Koh said. “This wine’s recipe was strictly followed in each and every jar.”

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winejars1The team worked in day and night shifts to excavate a total of 40 intact 3,700-year-old vessels in the ancient palatial wine cellar during its six-week dig in July 2013. Courtesy Eric Cline.  From Archaeologists Uncover One of Civilization’s Oldest Wine Cellars, Nov. 22, 2013 (Pop. Archaeology)

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winejars2Detail view of some of the ancient wine jars unearthed at Tel Kabri. Courtesy Eric Cline. From Archaeologists Uncover One of Civilization’s Oldest Wine Cellars, Nov. 22, 2013 (Pop. Archaeology)

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Now, Koh and colleagues have conducted further organic residue analysis using mass spectrometry. They confirmed that all of the relatively uniform jars contained chemical compounds indicative of wine. Researchers also detected subtle differences in the ingredients or additives within similarly shaped wine jars, including honey, storax resin, terebinth resin, cedar oil, cyperus, juniper, and possibly mint, myrtle, and cinnamon. They suggest the detection of these additives indicates that humans at the time had a sophisticated understanding of plants and skills necessary to produce a complex beverage that balanced preservation, palatability, and psychoactivity. According to the authors of this most recent research study, these results may contribute to a greater understanding of ancient viticulture and the Canaanite palatial economy.

Said Koh, “Based on the nature of the room, it was anticipated from the beginning that residue samples extracted and studied under virtually identical circumstances with minimal variability would have the potential to reveal new and significant insights from both a scientific and archaeological perspective. We believe this study will not only change our understanding of ancient viticulture and palatial social practices, but also the manner in which we approach organic residue analysis (ORA) as an integrated, qualitative, and interdisciplinary exercise that is as field dependent as it is laboratory intensive.”

Wine production, distribution, and consumption are thought to have played a role in the lives of those living in the Mediterranean and Near East during the Middle Bronze Age (1900-1600 BC), but little archaeological evidence about Bronze Age wine is available to support art and documentation about the role wine played during this period, until now.

The study details are published in the open-access journal PLOS ONE at http://dx.plos.org/10.1371/journal.pone.0106406*

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*Koh AJ, Yasur-Landau A, Cline EH (2014) Characterizing a Middle Bronze Palatial Wine Cellar from Tel Kabri, Israel. PLoS ONE 9(8): e106406. doi:10.1371/journal.pone.0106406

Source: Adapted and edited from press releases of the George Washington University and Brandeis University, a previous article published by Popular Archaeology Magazine, Archaeologists Uncover Rare Finds at an Ancient Canaanite Center, and a news release of PLOS ONE, Bronze Age wine cellar found.

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Archaeologists Excavate Endangered Maya Site

Teams of archaeologists are researching a number of ancient Maya sites in Belize that could stand some help to stay intact as important cultural heritage sites. 

One of those sites is called Nojol Nah. It is located on the east side of the Bajo Alacranes (see maps below), which extends across Belize’s northwest corner and parts of Mexico and Guatemala. The Alacranes Bajo is a low-lying area that is very fertile and continues to be today. The Mexican portion has been surveyed in recent years, revealing several large Maya centers and a number of smaller centers. At the far south end of the bajo, in Guatemala, is the major center of Río Azul. Ongoing survey work in Belize has revealed that a number of small centers with central precincts are located on the east side of the Bajo Alacranes, including such sites as Grey Fox, Xnoha, Nojol Nah and others.

Nojol Nah consists of a small public precinct with a single 10- meter tall pyramidal structure (“Structure 1”) on its west side that was constructed in the Late Preclassic (400 BCE – 200 CE) and Early Classic (200 – 600 CE) periods and was terminated at the end of the Early Classic period. In addition, the site contains a number of elite residential groups and structures.  These elite residences were constructed in the Early Classic period and abandoned in the Late Classic Period (600 – 900 CE). To date, work at Nojol Nah has included the excavation of  residential structures, a civic temple, chultuns, numerous caches, termination deposits, elite household middens (that produced sherds with glyphs), and an unusually large number of human burials.  

Nojol Nah, and other nearby sites such as Tulix Mul, Grey Fox, and Xnoha, are all significant due to their size and strategic location on the Alacranes Bajo. Far beyond the traditional focus of studying the monumental architecture and life-ways and history of the Maya royalty and Maya kings, the excavation and research of these sites will help us to more fully understand the overall nature and pattern of the Maya city and landscape, the economy, and royal elite, non-royal elite and non-elite interaction, all toward constructing a more comprehensive view of Maya civilization in this part of the Maya world. Research will also shed new light on the nature of the so-called Terminal Classic “collapse” and subsequent abandonment of the area (and Post- classic reoccupation). 

Unfortunately, just as the Maya farmed this area extensively in the past, the modern inhabitants of the area are also intensively farming the area (and converting this land to cattle pasture). Due to modern technologies (bulldozers, etc) the negative impact on the natural and cultural resources is severe. Nojol Nah, among other sites, is in immediate danger of being destroyed before the site can be sufficiently studied and its cultural resources conserved as an important part of Maya heritage. Among its objectives, the MRP (Maya Research Program) is focusing additional effort on raising funds to purchase the land on which Nojol Nah sits, and thus protecting it from destruction. MRP conducted a similar, and very successful, campaign for the site of Grey Fox

If you are interested, please consider donating and “adopting” Nojol Nah as your own by clicking here, or by clicking on the donate button below. See the webpage for information about the benefits you will receive for your donation.

 

 

(Images of Nojol Nah/Tulix Mul below)

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nojolnahmapOverview of NW Belize, with Nojol Nah, Grey Fox, and Blue Creek circled, some of the sites under research (Courtesy Maya Research Program) 

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nojolnahmap4Nojol Nah shown within the context of other Maya centers in the region. (Courtesy Mark Wolf)

_________________________________nojolnahmap3Plan Map of Nojol Nah (Courtesy Mark Wolf) 

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nojolnahstructureStructure 1 and crew : Nojol Nah (Courtesy Maya Research Program) 

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nojolnaheliteresidenceOverview of an elite residence: Nojol Nah (Courtesy Maya Rearch Program)

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nojolnaheliteresidence2Overview of an elite residence : Nojol Nah (Courtesy Maya Rearch Program) 

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nojolnahsherdPolychrome sherd with glyphs: Nojol Nah ( Courtesy Maya Research Program)

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tulixmulstructureIntact vaulted room: Tulix Mul (Courtesy Maya Research Program) 

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Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.

 

  





 

 

 

 

 

Study Raises Questions About Evolution of the Human Brain

There may be a fly in the ointment for some evolutionists when it comes to early brain adaptations in human evolutionary theory.

It revolves around a recent study of the endocast (internal cast of the space occupied by the brain in the skull) of the famous 3 million-year-old ‘Taung Child’ fossil discovered in South Africa in 1924. This find was advanced by Wits University Professor Raymond Dart in 1925 as evidence of an early hominin or “ape-man” species (Australopithecus africanus), a forerunner in human evolutionary beginnings. Among other things, it has been cited as having “historical and scientific importance in the fossil record as the first and best example of early hominin brain evolution”.* The theory is that it exhibits key cranial adaptations in its morphology that suggest, like modern human infants and toddlers, that certain features of the infant cranium provided the flexibility for continued growth and development in the prefrontal region of the brain, the region responsible for complex cognitive behavior, personality expression, decision making, and moderating social behavior, during infancy. In short, the Taung Child may have exhibited the first signs of ‘becoming human’ in terms of the human brain. 

But not so fast, say a team of scientists………. 

To test the ancientness of this evolutionary adaptation, Dr Kristian J. Carlson, Senior Researcher from the Evolutionary Studies Institute at the University of the Witwatersrand, Professor Ralph L. Holloway from Columbia University and Douglas C. Broadfield from Florida Atlantic University, performed an in silico dissection of the Taung fossil using high-resolution computed tomography at the Wits University Microfocus X-ray Computed Tomography (CT) facility. It was the first such examination ever conducted on the Taung Child fossil specimen.

“A recent study has described the roughly 3 million-year-old fossil, thought to have belonged to a 3 to 4-year-old, as having a persistent metopic suture and open anterior fontanelle, two features that facilitate post-natal brain growth in human infants when their disappearance is delayed,” said Carlson, referring to a study published in 2012 in the Proceedings of the National Academy of Sciences by Dean Falk of Florida State University and colleagues.

The CT scans conducted by Carlson and his colleagues, however, showed otherwise. Citing deficiencies in how the Taung fossil material has been recently assessed as presented in the 2012 study report, the researchers suggest physical evidence does not incontrovertibly link features of the Taung skull, or its endocast, to early prefrontal lobe expansion. 

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The Taung Child fossil

 The Taung Child fossil at the Evolutionary Studies Institute at Wits University. Credit: WITS UNIVERSITY

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“In sum, we believe the claim of high frequencies of metopic sutures in early hominins is premature, and thus the proposition that delayed metopic suture closure may have conferred a selective advantage in early hominin evolution is equally premature,” write the researchers in their report.*

Thus, results of the new study show that there is still no evidence for this kind of skull adaptation that evolved before Homo (the genus that includes modern humans and species closely related to them), nor is there evidence for a link between such skull characteristics and the proposed accompanying early prefrontal lobe expansion, Carlson said.

The study is published online in the journal Proceedings of the National Academy of Sciences (PNAS), in an article titled: New high resolution CT data of the Taung partial cranium and endocast and their bearing on metopism and hominin brain evolution.

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*Holloway, R.L., Broadfield, D.C., Carlson, K.J., New high resolution CT data of the Taung partial cranium and endocast and their bearing on metopism and hominin brain evolution; Proceedings of the National Academy of Sciences, 25 August 2014.

Article written with adaptations and edits from a University of Witwatersrand press release.

Cover Photo, Top Left: Endocranium, face and mandible of the Taung Child (Australopithecu africanus). Didier Descouens, Wikimedia Commons

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Read about the most fascinating discoveries with a premium subscription to Popular Archaeology Magazine.  Find out what Popular Archaeology Magazine is all about.  AND MORE:

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discovery2014cover2

Popular Archaeology’s annual Discovery Edition eBook is a selection of the best stories published in Popular Archaeology Magazine in past issues, with an emphasis on some of the most significant, groundbreaking, or fascinating discoveries in the fields of archaeology and paleoanthropology and related fields. At least some of the articles have been updated or revised specifically for the Discovery edition.  We can confidently say that there is no other single issue of an archaeology-related magazine, paper print or online, that contains as much major feature article content as this one. The latest issue, volume 2, has just been released. Go to the Discovery edition page for more information.