Archives: Articles

This is the example article

9,000 years ago, a community with modern urban problems

OHIO STATE UNIVERSITY, COLUMBUS, Ohio – Some 9,000 years ago, residents of one of the world’s first large farming communities were also among the first humans to experience some of the perils of modern urban living.

Scientists studying the ancient ruins of Çatalhöyük, in modern Turkey, found that its inhabitants – 3,500 to 8,000 people at its peak – experienced overcrowding, infectious diseases, violence and environmental problems.

In a paper published June 17, 2019 in the Proceedings of the National Academy of Sciences, an international team of bioarchaeologists report new findings built on 25 years of study of human remains unearthed at Çatalhöyük.

The results paint a picture of what it was like for humans to move from a nomadic hunting and gathering lifestyle to a more sedentary life built around agriculture, said Clark Spencer Larsen, lead author of the study, and professor of anthropology at The Ohio State University.

“Çatalhöyük was one of the first proto-urban communities in the world and the residents experienced what happens when you put many people together in a small area for an extended time,” Larsen said.

“It set the stage for where we are today and the challenges we face in urban living.”

Çatalhöyük, in what is now south-central Turkey, was inhabited from about 7100 to 5950 B.C. First excavated in 1958, the site measures 13 hectares (about 32 acres) with nearly 21 meters of deposits spanning 1,150 years of continuous occupation.

Larsen, who began fieldwork at the site in 2004, was one of the leaders of the team that studied human remains as part of the larger Çatalhöyük Research Project, directed by Ian Hodder of Stanford University. A co-author of the PNAS paper, Christopher Knüsel of Université de Bordeaux in France, was co-leader of the bioarchaeology team with Larsen.

Fieldwork at Çatalhöyük ended in 2017 and the PNAS paper represents the culmination of the bioarchaeology work at the site, Larsen said.

Çatalhöyük began as a small settlement about 7100 B.C., likely consisting of a few mud-brick houses in what researchers call the Early period. It grew to its peak in the Middle period of 6700 to 6500 B.C., before the population declined rapidly in the Late period. Çatalhöyük was abandoned about 5950 BC.

Farming was always a major part of life in the community. The researchers analyzed a chemical signature in the bones – called stable carbon isotope ratios – to determine that residents ate a diet heavy on wheat, barley and rye, along with a range of non-domesticated plants.

Stable nitrogen isotope ratios were used to document protein in their diets, which came from sheep, goats and non-domesticated animals. Domesticated cattle were introduced in the Late period, but sheep were always the most important domesticated animal in their diets.

“They were farming and keeping animals as soon as they set up the community, but they were intensifying their efforts as the population expanded,” Larsen said.

The grain-heavy diet meant that some residents soon developed tooth decay – one of the so-called “diseases of civilization,” Larsen said. Results showed that about 10 to 13 percent of teeth of adults found at the site showed evidence of dental cavities.

Changes over time in the shape of leg bone cross-sections showed that community members in the Late period of Çatalhöyük walked significantly more than early residents. That suggests residents had to move farming and grazing further from the community as time went on, Larsen said.

“We believe that environmental degradation and climate change forced community members to move further away from the settlement to farm and to find supplies like firewood,” he said. “That contributed to the ultimate demise of Çatalhöyük.”

Other research suggests that the climate in the Middle East became drier during the course of Çatalhöyük’s history, which made farming more difficult.

Findings from the new study suggest that residents suffered from a high infection rate, most likely due to crowding and poor hygiene. Up to one-third of remains from the Early period show evidence of infections on their bones.

During its peak in population, houses were built like apartments with no space between them – residents came and left through ladders to the roofs of the houses.

Excavations showed that interior walls and floors were re-plastered many times with clay. And while the residents kept their floors mostly debris-free, analysis of house walls and floors showed traces of animal and human fecal matter.

“They are living in very crowded conditions, with trash pits and animal pens right next to some of their homes. So there is a whole host of sanitation issues that could contribute to the spread of infectious diseases,” Larsen said.

The crowded conditions in Çatalhöyük may have also contributed to high levels of violence between residents, according to the researchers.

In a sample of 93 skulls from Çatalhöyük, more than one-fourth – 25 individuals – showed evidence of healed fractures. And 12 of them had been victimized more than once, with two to five injuries over a period of time. The shape of the lesions suggested that blows to the head from hard, round objects caused them – and clay balls of the right size and shape were also found at the site.

More than half of the victims were women (13 women, 10 men). And most of the injuries were on the top or back of their heads, suggesting the victims were not facing their assailants when struck.

“We found an increase in cranial injuries during the Middle period, when the population was largest and most dense,” Larsen said.

“An argument could be made that overcrowding led to elevated stress and conflict within the community.”

Most people were buried in pits that had been dug into the floors of houses, and researchers believe they were interred under the homes in which they lived. That led to an unexpected finding: Most members of a household were not biologically related.

Researchers discovered this when they found that the teeth of individuals buried under the same house weren’t as similar as would be expected if they were kin.

“The morphology of teeth are highly genetically controlled,” Larsen said. “People who are related show similar variations in the crowns of their teeth and we didn’t find that in people buried in the same houses.”

More research is needed to determine the relations of people who lived together in Çatalhöyük, he said. “It is still kind of a mystery.”

Overall, Larsen said the significance of Çatalhöyük is that it was one of the first Neolithic “mega-sites” in the world built around agriculture.

“We can learn about the immediate origins of our lives today, how we are organized into communities. Many of the challenges we have today are the same ones they had in Çatalhöyük – only magnified.”

Written by Jeff Grabmeier, 614-292-8457; Grabmeier.1@osu.edu

____________________________

Neolithic burial from Çatalhöyük, Turkey, is represented by a headless young adult female with a fetal skeleton (arrow). Skull removal was a burial custom practiced in number of instances at this locality. Çatalhöyük Research Project/Jason Quinlan

____________________________

Çatal Hüyük excavations. Stipich Béla. Wikimedia Commons

____________________________

Article Source: Ohio State University and PNAS news releases (image from PNAS news release).

If you liked this article, you may like Before Kings and Palaces, a free Popular Archaeology premium article .

The origins of cannabis smoking: marijuana use in the first millennium BC

MAX PLANCK INSTITUTE FOR THE SCIENCE OF HUMAN HISTORY—Cannabis has been cultivated as an oil-seed and fibre crop for millennia in East Asia. Little is known, however, about the early use and eventual cultivation of the plant for its psychoactive and medicinal properties. Despite being one of the most widely used psychoactive drugs in the world today, there is little archaeological or historical evidence for the use of marijuana in the ancient world. The current study*, published in the journal Science Advances, identified psychoactive compounds preserved in 2,500-year-old funerary incense burners from the Jirzankal Cemetery in the eastern Pamirs. Researchers from the Max Planck Institute for the Science of Human History, the Chinese Academy of Sciences, and the Chinese Academy of Social Sciences have shown that people were selecting plants with higher levels of THC, and burning them as part of mortuary rituals. This is the earliest clear evidence to date of cannabis being used for its psychoactive properties.

Cannabis is one of the most infamous plants on the planet today, especially in light of rapidly changing legislation surrounding its legalization in Europe and America. Despite the popularity of the plant for its psychoactive properties, very little is known about the earliest use or cultivation of cannabis for its mind-altering effects. Cannabis plants were cultivated in East Asia for their oily seeds and fibre from at least 4000 BC. However, the early cultivated varieties of cannabis, as well as most wild populations, have low levels of THC and other cannabinoid compounds with psychoactive properties. Therefore, it has been a long-standing mystery as to when and where specific varieties of the plant with higher levels of these compounds were first recognized and used by humans. Many historians place the origins of cannabis smoking on the ancient Central Asian steppes, but these arguments rely solely on a passage from a single ancient text from the late first millennium BC, written by the Greek historian Herodotus. Archaeologists have thus long sought to identify concrete evidence for cannabis smoking in Eurasia, but to date, there are few reliable, well-identified and properly dated examples of early cannabis use.

The researchers in the current study uncovered the early cannabis use when they sought to identify the function of ancient wooden burners discovered by archaeologists from the Chinese Academy of Social Sciences, who were excavating in the high mountainous regions of eastern China. The burners were recovered from 2500-year-old tombs in the Pamir mountain range. The international research team used a method called gas chromatography-mass spectrometry to isolate and identify compounds preserved in the burners. To their surprise, the chemical signature of the isolated compounds was an exact match to the chemical signature of cannabis. Moreover, the signature indicated a higher level of THC than is normally found in wild cannabis plants.

The data produced by the research effort, which brought together archaeologists and laboratory scientists from Jena, Germany and Beijing, China, provides clear evidence that ancient people in the Pamir Mountains were burning specific varieties of cannabis that had higher THC levels. The findings corroborate other early evidence for cannabis from burials further north, in the Xinjiang region of China and in the Altai Mountains of Russia. As Nicole Boivin, Director at the Max Planck Institute for the Science of Human History notes, “The findings support the idea that cannabis plants were first used for their psychoactive compounds in the mountainous regions of eastern Central Asia, thereafter spreading to other regions of the world.”

Cannabis likely spread across exchange routes along the early Silk Road

The THC-containing residues were extracted from burners from a cemetery known as Jirzankal in the remote Pamir Mountains. Some of the skeletons recovered from the site, situated in modern-day western China, have features that resemble those of contemporaneous peoples further west in Central Asia. Objects found in the burials also appear to link this population to peoples further west in the mountain foothills of Inner Asia. Additionally, stable isotope studies on the human bones from the cemetery show that not all of the people buried there grew up locally.

These data fit with the notion that the high-elevation mountain passes of Central and Eastern Asia played a key role in early trans-Eurasian exchange. Indeed, the Pamir region, today so remote, may once have sat astride a key ancient trade route of the early Silk Road. The Silk Road was at certain times in the past the single most important vector for cultural spread in the ancient world. Robert Spengler, the lead archaeobotanist for the study, also at the Max Planck Institute for the Science of Human History, explains, “The exchange routes of the early Silk Road functioned more like the spokes of a wagon wheel than a long-distance road, placing Central Asia at the heart of the ancient world. Our study implies that knowledge of cannabis smoking and specific high-chemical-producing varieties of the cannabis plant were among the cultural traditions that spread along these exchange routes.”

People sought and later cultivated more psychoactive varieties of cannabis for use in burial rituals

Compared to cultivated varieties, wild cannabis plants contain lower levels of THC, one of the psychoactive compounds in cannabis. It is still unclear whether the people buried at Jirzankal actively cultivated cannabis or simply sought out higher THC-producing plants. One theory is that cannabis plants will produce greater quantities of active compounds in response to increased UV radiation and other stressors related to growing at higher elevations. So people roaming the high mountainous regions may have discovered more potent wild plants there, and initiated a new kind of use of the plant.

While modern cannabis is used primarily as a recreational drug or for medical applications, cannabis may have been used rather differently in the past. The evidence from Jirzankal suggests that people were burning cannabis at rituals commemorating the dead. They buried their kin in tombs over which they created circular mounds, stone rings and striped patterns using black and white stones.

Whether cannabis also had other uses in society is unclear, though it seems likely that the plant’s ability to treat a variety of illnesses and symptoms was recognized early on. Yimin Yang, researcher at the University of the Chinese Academy of Sciences in Beijing observes, “This study of ancient cannabis use helps us understand early human cultural practices, and speaks to the intuitive human awareness of natural phytochemicals in plants.” Dr. Yang has studied ancient organic residues in East Asia for over ten years. He notes that “biomarker analyses open a unique window onto details of ancient plant exploitation and cultural communication that other archaeological methods cannot offer.”

Professor Boivin points out that “given the modern political climate surrounding the use of cannabis, archaeological studies like this can help us to understand the origins of contemporary cultural practice and belief structures – which, in turn, can inform policy.” As Dr. Spengler observes, “Modern perspectives on cannabis vary tremendously cross-culturally, but it is clear that the plant has a long history of human use, medicinally, ritually, and recreationally, over countless millennia.”

_____________________________

The excavation of the tomb M12, in which the brazier was found. In the photo, the brazier can be seen at the middle bottom edge of the central circle. Xinhua Wu

_____________________________

The typical brazier and burnt stones in ancient Pamirs. Xinhua Wu

_____________________________

Dense patches of wild cannabis grow across the mountain foothills of Eurasia from the Caucuses to East Asia; these plants were photographed growing in the Tian Shan Mountains of Kazakhstan. Robert Spengler

_____________________________

*Meng Ren, Zihua Tang, Xinhua Wu, Robert Spengler, Hongen Jiang, Yimin Yang, Nicole Boivin , The Origins of Cannabis Smoking: Chemical Residue Evidence from the First Millennium BC in the Pamirs, Science Advances

Article Source: Max Planck Institute for the Science of Human History news release

Diet at the docks: Living and dying at the port of ancient Rome

UNIVERSITY OF CAMBRIDGE—Portus Romae was established in the middle of the first century AD and for well over 400 years was Rome’s gateway to the Mediterranean. The port played a key role in funneling imports – e.g. foodstuffs, wild animals, marble and luxury goods – from across the Mediterranean and beyond to the citizens of Rome and was vital to the pre-eminence of the city in the Roman Mediterranean.

But, what of the people who lived, worked and died there?

In a study published today in Antiquity, an international team of researchers present the results of the analysis of plant, animal and human remains, reconstructing both the diets and geographic origins of the Portus inhabitants. The findings suggest that the political upheaval following the Vandal sack of Rome in AD 455 and the 6th century wars between the Ostrogoths and the Byzantines may have had a direct impact on the food resources and diet of those working at Portus Romae.

Lead author, Dr Tamsin O’Connell of the Department of Archaeology, University of Cambridge said, “The human remains from the excavations at Portus belong to a local population involved in heavy, manual labour, perhaps the saccarii (porters) who unloaded cargoes from incoming ships. When looking isotopically at the individuals dating to between the early second to mid fifth centuries AD, we see that they have a fairly similar diet to the rich and middle-class people buried at the Isola Sacra cemetery just down the road. It is interesting that although there are differences in social status between these burial populations, they both have access to similar food resources. This contradicts what we see elsewhere in the Roman world at this time. But, later on, something changes.”

Dr O’Connell continues, “Towards the end of the mid fifth century we see a shift in the diet of the local populations away from one rich in animal protein and imported wheat, olive oil, fish sauce and wine from North Africa, to something more akin to a ‘peasant diet’, made up of mainly plant proteins in things like potages and stews. They’re doing the same kind of manual labour and hard work, but were sustained by beans and lentils”

“This is the time period after the sack of the Vandals in AD 455. We’re seeing clear shifts in imported foods and diet over time that tie-in with commercial and political changes following the breakdown of Roman control of the Mediterranean. We are able to observe political effects playing out in supply networks. The politics and the resources both shift at the same time.”

Director of the University of Southampton’s Portus Project, Professor Simon Keay explained, “Our excavations at the centre of the port provide the first archaeological evidence of the diet of the inhabitants of Portus at a critical period in the history of Imperial Rome. They tell us that by the middle of the 5th century AD, the outer harbor basin was silting up, all of the buildings were enclosed within substantial defensive walls, that the warehouses were used for the burial of the dead rather than for storage, and that the volume of trade that passed through the port en route to Rome had contracted dramatically.”

“These developments may have been in some way related to the destruction wrought upon Portus and Rome by invading Vandals led by Gaiseric in AD 455, but may also be related to decreasing demand by the City of Rome, whose population had shrunk significantly by this date. These conclusions help us better understand major changes in patterns of production and trade across the Mediterranean that have been detected in recent years.”

Dr O’Connell concludes, “Are food resources and diets shaped by political ruptures? In the case of Portus, we see that when Rome was rich everybody, from the local elite to the dockworkers, was doing fine nutritionally. Then this big political rupture happens and wheat and other foodstuffs have to come from somewhere else. When Rome is on the decline, the manual laborers, at least, are not doing as well as previously.”

______________________________

Aerial photo of the Portus Project excavations in 2009. Portus Project

______________________________

Digital reconstruction of Portus Romae. Portus Project/Artas Media

______________________________

1,700-year-old charred wheat grains from Portus Romae. L. Bonner

______________________________

Article Source: University of Cambridge news release

The Neolithic precedents of gender inequality

UNIVERSITY OF SEVILLE—Researchers from the Department of Prehistory and Archaeology at the University of Seville have studied the archaeological evidence of prehistoric societies in the Neolithic Period in the Iberian Peninsula from the perspective of gender. According to the results of their work, which address the analysis from the point of view of bioarchaeology and funerary archaeology, it was in the Neolithic that gender differences first appeared which meant male domination in later periods of history.

To arrive at these conclusions, the researchers have analyzed two groups of indicators. On the one hand, life conditions and demographic aspects; and, on the other, funerary practices. In the first group, they studied factors like the sexual ratio (the demographic proportion of men to women), diet, genetic data, movement, the most common diseases and the detected stress markers. In the second, they considered data like the type of burial, the primary or secondary character of the deposit, if it was individual or collective burial, the spatial organization of the site, the position and orientation of the bodies, the funerary goods that were placed in the tomb or the “funerary movements” (signs of manipulation of the bodies, pigmentation or alteration caused by the heat).

The study concluded that inequality between men and women was not generally consolidated or widely spread in Iberia during the Neolithic. However, situations progressively appeared that indicate dominance of men over women. The authors point to four important lines in which inequality between men and women can be investigated through successive historical periods: their access to funeral rites, the material conditions of their existence, the appearance of specific social roles for each of the genders and the growing association of men with violence.

It is precisely this last aspect that is most evident in this study. The arrow wounds on male bodies, the depositing of projectiles in their tombs or the pictorial representations (cave paintings) of men hunting and fighting have no equivalent parallel in women. Therefore, the authors point to the birth of an ideology that connected men with the exercise of force. In this sense, they highlight that the creation of different roles according to gender and other forms of gender inequality played a fundamental role in the growth of social complexity, a factor that has not always been well understood in previous research projects.

The study, which stems from the University of Seville doctoral thesis of Marta Cintas Peña, was carried out by the teacher Leonardo García Sanjuán, and it is the first time that this period has been dealt with from the perspective of gender and considering multiple variables. The study’s conclusions mean the archaeological confirmation of the proposal of anthropologist Gerda Lerner, who in the book The Creation of Patriarchy proposed the hypothesis that it was the Neolithic societies that saw the beginning of inequality between men and women.

__________________________

Reconstruction of a neolithic “lime kiln tomb” before being burnt. Ambrona Valley, Soria, Spain. Friera, Wikimedia Commons

__________________________

Article Source: University of Seville news release.

Ancient DNA from Roman and medieval grape seeds reveal ancestry of wine making

UNIVERSITY OF YORK—A grape variety still used in wine production in France today can be traced back 900 years to just one ancestral plant, scientists have discovered.

With the help of an extensive genetic database of modern grapevines, researchers were able to test and compare 28 archaeological seeds from French sites dating back to the Iron Age, Roman era, and medieval period.

Utilising similar ancient DNA methods used in tracing human ancestors, a team of researchers from the UK, Denmark, France, Spain, and Germany, drew genetic connections between seeds from different archaeological sites, as well as links to modern-day grape varieties.

It has long been suspected that some grape varieties grown today, particularly well-known types like Pinot Noir, have an exact genetic match with plants grown 2,000 years ago or more, but until now there has been no way of genetically testing an uninterrupted genetic lineage of that age.

Dr Nathan Wales, from the University of York, said: “From our sample of grape seeds we found 18 distinct genetic signatures, including one set of genetically identical seeds from two Roman sites separated by more than 600km, and dating back 2,000 years ago.

“These genetic links, which included a ‘sister’ relationship with varieties grown in the Alpine regions today, demonstrate winemakers’ proficiencies across history in managing their vineyards with modern techniques, such as asexual reproduction through taking plant cuttings.”

One archaeological grape seed excavated from a medieval site in Orléans in central France was genetically identical to Savagnin Blanc. This means the variety has grown for at least 900 years as cuttings from just one ancestral plant.

This variety (not to be confused with Sauvignon Blanc), is thought to have been popular for a number of centuries, but is not as commonly consumed as a wine today outside of its local region.

The grape can still be found growing in the Jura region of France, where it is used to produce expensive bottles of Vin Jaune, as well as in parts of Central Europe, where it often goes by the name Traminer.

Although this grape is not so well known today, 900 years of a genetically identical plant suggests that this wine was special – special enough for grape-growers to stick with it across centuries of changing political regimes and agricultural advancements.

Dr Jazmín Ramos-Madrigal, a postdoctoral researcher from the University of Copenhagen, said: “We suspect the majority of these archaeological seeds come from domesticated berries that were potentially used for winemaking based on their strong genetic links to wine grapevines.

“Berries from varieties used for wine are small, thick-skinned, full of seeds, and packed with sugar and other compounds such as acids, phenols, and aromas – great for making wine but not quite as good for eating straight from the vine. These ancient seeds did not have a strong genetic link to modern table grapes.

“Based on writings by the Roman author and naturalist, Pliny the Elder, and others, we know the Romans had advanced knowledge of winemaking and designated specific names to different grape varieties, but it has so far been impossible to link their Latin names to modern varieties.

“Now we have the opportunity to use genetics to know exactly what the Romans were growing in their vineyards.”

Of the Roman seeds, the researchers could not find an identical genetic match with modern-day seeds, but they did find a very close relationships with two important grape families used to produce high quality wine.

These include the Syrah-Mondeuse Blanche family – Syrah is one of the most planted grapes in the world today – and the Mondeuse Blanche, which produces a high quality AOC (protected regional product) wine in Savoy, as well as the Pinot-Savagnin family – Pinot Noir being the “king of wine grapes”.

Dr Wales said: “It is rather unconventional to trace an uninterrupted genetic lineage for hundreds of years into the past. Instead of exploring broad patterns in genetic ancestry, as in most ancient DNA projects, we had to think like forensics scientists and find a perfect match in the database.

“Large databases of genetic data from modern crops and optimized palaeogenomic methods have vastly improved our ability to analyze the history of this and other important fruits.

“For the wine industry today, these results could shed new light on the value of some grape varieties; even if we don’t see them in popular use in wines today, they were once highly valued by past wine lovers and so are perhaps worth a closer look.”

The researchers now hope to find more archaeological evidence that could send them further back in time and reveal more grape wine varieties.

_____________________________

Archaeological excavation of Roman farm at Mont Ferrier site in Tourbes, France. Grape seeds closely related to Pinot Noir and Savagnin Blanc were excavated from a well dating to the first century CE. M. Compan, Inrap

_____________________________

A vineyard by Pic Saint Loup Mountain in southern France. S. Ivorra CNRS/ISEM

_____________________________

Article Source: University of York news release

More mysterious jars of the dead unearthed in Laos

AUSTRALIAN NATIONAL UNIVERSITY—ANU and Uni of Melbourne Archaeologists have discovered 15 new sites in Laos containing more than one hundred 1000-year-old massive stone jars possibly used for the dead.

The jars of Laos are one of archaeology’s enduring mysteries. Experts believe they were related to disposal of the dead, but nothing is known about the jars’ original purpose and the people who brought them there.

The new finds show the distribution of the jars was more widespread than previously thought and could unlock the secrets surrounding their origin.

The sites, deep in remote and mountainous forest and containing 137 jars, were identified by ANU PhD student Nicholas Skopal with officials from the Lao government.

“These new sites have really only been visited by the occasional tiger hunter. Now we’ve rediscovered them, we’re hoping to build a clear picture about this culture and how it disposed of its dead,” said Mr Skopal.

ANU archaeologist Dr Dougald O’Reilly and Dr Louise Shewan from the University of Melbourne co-led the team that made the discovery. Dr O’Reilly said the new sites show the ancient burial practices involving the jars was “more widespread than previously thought”.

“It’s apparent the jars, some weighing several tonnes, were carved in quarries, and somehow transported, often several kilometers to their present locations,” Dr O’Reilly.

“But why these sites were chosen as the final resting place for the jars is still a mystery. On top of that we’ve got no evidence of occupation in this region.”

This year’s excavations revealed beautifully carved discs which are most likely burial markers placed around the jars. Curiously, the decorated side of each disc has been buried face down.

Dr O’Reilly said the imagery on the discs found so far included concentric circles, pommels, human figures and creatures.

“Decorative carving is relatively rare at the jar sites and we don’t know why some discs have animal imagery and others have geometric designs,” Dr O’Reilly said.

Among typical iron-age artifacts found with the burials – decorative ceramics, glass beads, iron tools, discs worn in the ears and spindle whorls for cloth making – one particular find piqued the researchers’ interest.

“Curiously we also found many miniature jars, which look just like the giant jars themselves but made of clay, so we’d love to know why these people represented the same jars in which they placed their dead, in miniature to be buried with their dead,” Dr O’Reilly said.

“We’ve seen similar megalithic jars in Assam in India and in Sulawesi in Indonesia so we’d like to investigate possible connections in prehistory between these disparate regions.”

Dr O’Reilly and his co-research Director on the project, Dr Louise Shewan, from the University of Melbourne would like to acknowledge Dr Thonglith Luangkoth of the Ministry of Information, Culture and Tourism without whose kind hospitality none of our research would be possible.

____________________________

Sandstone megalithic jars in Xiengkhouang Province, Laos. ANU

____________________________

Disc decorated with concentric rings. ANU

____________________________

Article Source: Australian National University news release

If you liked this story, you may also like Living in the Shadow of Angkor.

Ancient DNA sheds light on Arctic hunter-gatherer migration to North America ~5,000 years ago

MAX PLANCK INSTITUTE FOR THE SCIENCE OF HUMAN HISTORY—The first humans in North America arrived from Asia some time before 14,500 years ago. The next major stream of gene flow came about 5,000 years ago, and is known to archaeologists as Paleo-Eskimos. About 800 years ago, the ancestors of the present-day Inuit and Yup’ik people replaced this population across the Arctic. By about 700 years ago, the archaeological evidence for the Paleo-Eskimo culture disappeared. Their genetic legacy in living populations has been contentious, with several genetic studies arguing that they made little contribution to later North Americans.

In the current study, researchers generated genome-wide data from 48 ancient individuals and 93 modern individuals from Siberia, Alaska, the Aleutian Islands and Canada, and compared this with previously published data. The researchers used novel analysis methods to create a comprehensive model of population history that included many ancient and modern groups to determine how they might be related to each other. “Our study is unique, not only in that it greatly expands the number of ancient genomes from this region, but because it is the first study to comprehensively describe all of these populations in one single coherent model,” states Stephan Schiffels of the Max Planck Institute for the Science of Human History.

Paleo-Eskimos left a lasting legacy that extends across North America

The researchers were able to show that a substantial proportion of the genetic heritage of all ancient and modern American Arctic and Chukotkan populations comes from Paleo-Eskimos. This includes people speaking Eskimo-Aleut languages, such as the Yup’ik, Inuit and Aleuts, and groups speaking Na-Dene languages, such as Athabaskan and Tlingit speakers, in Canada, Alaska, and the lower 48 states of the United States.

Based on the researchers’ analysis, Paleo-Eskimos interbred with people with ancestry similar to more southern Native peoples shortly after their arrival to Alaska, between 5,000 and 4,000 years ago. The ancestors of Aleutian Islanders and Athabaskans derive their genetic heritage directly from the ancient mixture between these two groups. The researchers also found that the ancestors of the Inuit and Yup’ik people crossed the Bering Strait at least three times: first as Paleo-Eskimos to Alaska, second as predecessors of the Old Bering Sea archaeological culture back to Chukotka, and third to Alaska again as bearers of the Thule culture. During their stay in Chukotka that likely lasted for more than 1000 years, Yupik and Inuit ancestors also admixed with local groups related to present-day Chukchi and local peoples from Kamchatka.

Paleo-Eskimo ancestry is particularly widespread today in Na-Dene language speakers, which includes Athabaskan and Tlingit communities from Alaska and northern Canada, the West Coast of the United States, and the southwest United States.

“For the last seven years, there has been a debate about whether Paleo-Eskimos contributed genetically to people living in North America today; our study resolves this debate and furthermore supports the theory that Paleo-Eskimos spread Na-Dene languages,” explains David Reich of Harvard Medical School and the Howard Hughes Medical Institute. “One of the most striking case examples from our study is the ancient DNA we generated from the ancient Athabaskan site of Tochak McGrath in interior Alaska, where we worked in consultation with the local community to obtain data from three approximately seven hundred year old individuals. We found that these individuals, who lived after the time when the Paleo-Eskimo archaeological culture disappeared across North America, are well modeled as a mixture of the same two ancestry components as those found in Athabaskans today, and derived more than 40% of their ancestry from Paleo-Eskimos.

A case example for how genetics can be combined with archaeology to shed new light on the past

The researchers hope that the paper will provide an example of the value of genetic data, in the context of archaeological knowledge, to resolve long-standing questions.

“Determining what happened to this population was not possible from the archaeological record alone,” explains Pavel Flegontov of the University of Ostrava. “By analyzing genetic data in concert with the archaeological data, we can meaningfully improve our understanding of the prehistory of peoples of this region. We faced challenging analytical problems due to the complex sequence of gene flows that have shaped ancestries of peoples on both sides of the Bering Strait. Reconstructing this sequence of events required new modeling approaches that we hope may be useful for solving similar problems in other regions of the world.”

____________________________

The excavation of the Middle Dorset individual, one of the subjects sampled in the research, from the Buchanan site on southeastern Victoria Island, Nunavut, Central Canadian Arctic. T. Max Friesen

____________________________

An ancient population of Arctic hunter-gatherers, known as Paleo-Eskimos, made a significant genetic contribution to populations living in Arctic North America today. Illustration by Kerttu Majander, Design by Michelle O’Reilly

____________________________

Article Source: MAX PLANCK INSTITUTE FOR THE SCIENCE OF HUMAN HISTORY news release

DNA from 31,000-year-old milk teeth leads to discovery of new group of ancient Siberians

ST JOHN’S COLLEGE, UNIVERSITY OF CAMBRIDGE—Two children’s milk teeth buried deep in a remote archaeological site in north eastern Siberia have revealed a previously unknown group of people lived there during the last Ice Age.

The finding was part of a wider study which also discovered 10,000 year-old human remains in another site in Siberia are genetically related to Native Americans – the first time such close genetic links have been discovered outside of the US.

The international team of scientists, led by Professor Eske Willerslev who holds positions at St John’s College, University of Cambridge, and is director of The Lundbeck Foundation Centre for GeoGenetics at the University of Copenhagen, have named the new people group the ‘Ancient North Siberians’ and described their existence as ‘a significant part of human history’.

The DNA was recovered from the only human remains discovered from the era – two tiny milk teeth – that were found in a large archaeological site found in Russia near the Yana River. The site, known as Yana Rhinoceros Horn Site (RHS), was found in 2001 and features more than 2,500 artifacts of animal bones and ivory along with stone tools and evidence of human habitation.

The discovery is published today (June 5 2019) as part of a wider study in Nature and shows the Ancient North Siberians endured extreme conditions in the region 31,000 years ago and survived by hunting woolly mammoths, woolly rhinoceroses, and bison.

Professor Willerslev said: “These people were a significant part of human history, they diversified almost at the same time as the ancestors of modern day Asians and Europeans and it’s likely that at one point they occupied large regions of the northern hemisphere.”

Dr Martin Sikora, of The Lundbeck Foundation Centre for GeoGenetics and first author of the study, added: “They adapted to extreme environments very quickly, and were highly mobile. These findings have changed a lot of what we thought we knew about the population history of north eastern Siberia but also what we know about the history of human migration as a whole.”

Researchers estimate that the population numbers at the site would have been around 40 people with a wider population of around 500. Genetic analysis of the milk teeth revealed the two individuals sequenced showed no evidence of inbreeding which was occurring in the declining Neanderthal populations at the time.

The complex population dynamics during this period and genetic comparisons to other people groups, both ancient and recent, are documented as part of the wider study which analyzed 34 samples of human genomes found in ancient archaeological sites across northern Siberia and central Russia.

Professor Laurent Excoffier from the University of Bern, Switzerland, said: “Remarkably, the Ancient North Siberians people are more closely related to Europeans than Asians and seem to have migrated all the way from Western Eurasia soon after the divergence between Europeans and Asians.”

Scientists found the Ancient North Siberians generated the mosaic genetic make-up of contemporary people who inhabit a vast area across northern Eurasia and the Americas – providing the ‘missing link’ of understanding the genetics of Native American ancestry.

It is widely accepted that humans first made their way to the Americas from Siberia into Alaska via a land bridge spanning the Bering Strait which was submerged at the end of the last Ice Age. The researchers were able to pinpoint some of these ancestors as Asian people groups who mixed with the Ancient North Siberians.

Professor David Meltzer, Southern Methodist University, Dallas, one of the paper’s authors, explained: “We gained important insight into population isolation and admixture that took place during the depths of the Last Glacial Maximum – the coldest and harshest time of the Ice Age – and ultimately the ancestry of the peoples who would emerge from that time as the ancestors of the indigenous people of the Americas.”

This discovery was based on the DNA analysis of a 10,000 year-old male remains found at a site near the Kolyma River in Siberia. The individual derives his ancestry from a mixture of Ancient North Siberian DNA and East Asian DNA, which is very similar to that found in Native Americans. It is the first time human remains this closely related to the Native American populations have been discovered outside of the US.

Professor Willerslev added: “The remains are genetically very close to the ancestors of Paleo-Siberian speakers and close to the ancestors of Native Americans. It is an important piece in the puzzle of understanding the ancestry of Native Americans as you can see the Kolyma signature in the Native Americans and Paleo-Siberians. This individual is the missing link of Native American ancestry.”

______________________________

The two 31,000-year-old milk teeth found at the Yana Rhinoceros Horn Site in Russia which led to the discovery of a new group of ancient Siberians. Photo credit: Russian Academy of Sciences.

______________________________

Above and below: The archaeological site near the Yana River. Alla Mashezerskaya maps the artifacts in the area where two 31,000-year-old milk teeth were found. Photo credit: Elena Pavlova

______________________________

A 31,000-year-old milk tooth was discovered in this small area among ancient remnants of tools and animal bones. Photo credit: Elena Pavlova

______________________________

A fragment of a decorative ivory hair ornament or head band discovered at the excavation site. Photo credit: Elena Pavlova

______________________________

The 10,000-year-old skull from the archaeological site near the Kolyma River. Photo credit: Elena Pavlova

______________________________

A map showing the movement of different people groups in north eastern Siberia over the last 30,000 years. Image credit: Martin Sikora

______________________________

Article Source: ST JOHN’S COLLEGE, UNIVERSITY OF CAMBRIDGE news release

If you liked this, you may like The First Siberians, a Popular Archaeology premium article in the Spring 2019 issue.

Oldest flaked stone tools point to the repeated invention of stone tools

ARIZONA STATE UNIVERSITY—A new archaeological site discovered by an international and local team of scientists working in Ethiopia shows that the origins of stone tool production are older than 2.58 million years ago. Previously, the oldest evidence for systematic stone tool production and use was 2.58 to 2.55 million years ago.

Analysis by the researchers of early stone age sites, published this week in the Proceedings of the National Academy of Sciences, suggests that stone tools may have been invented many times in many ways before becoming an essential part of the human lineage.

The excavation site, known as Bokol Dora 1 or BD 1, is close to the 2013 discovery of the oldest fossil attributed to our genus Homo discovered at Ledi-Geraru in the Afar region of northeastern Ethiopia. The fossil, a jaw bone, dates to about 2.78 million years ago, some 200,000 years before the then oldest flaked stone tools. The Ledi-Geraru team has been working for the last five years to find out if there is a connection between the origins of our genus and the origins of systematic stone tool manufacture.

A significant step forward in this search was uncovered when Arizona State University geologist Christopher Campisano saw sharp-edged stone tools sticking out of the sediments on a steep, eroded slope.

“At first we found several artifacts lying on the surface, but we didn’t know what sediments they were coming from,” says Campisano. “But when I peered over the edge of a small cliff, I saw rocks sticking out from the mudstone face. I scaled up from the bottom using my rock hammer and found two nice stone tools starting to weather out.”

It took several years to excavate through meters of sediments by hand before exposing an archaeological layer of animal bones and hundreds of small pieces of chipped stone representing the earliest evidence of our direct ancestors making and using stone knives. The site records a wealth of information about how and when humans began to use stone tools.

Preservation of the artifacts comes from originally being buried close to a water source.

“Looking at the sediments under a microscope, we could see that the site was exposed only for a very short time. These tools were dropped by early humans at the edge of a water source and then quickly buried. The site then stayed that way for millions of years,” noted geoarchaeologist Vera Aldeias of the Interdisciplinary Center for Archaeology and Behavioral Evolution at the University of Algarve, Portugal.

Kaye Reed, who studies the site’s ecology, is director of the Ledi-Geraru Research Project and a research associate with Arizona State University’s Institute of Human Origins along with Campisano, notes that the animals found with these tools were similar to those found only a few kilometers away with the earliest Homo fossils.

“The early humans that made these stone tools lived in a totally different habitat than ‘Lucy’ did,” says Reed. “Lucy” is the nickname for an older species of hominin known as Australopithecus afarensis, which was discovered at the site of Hadar, Ethiopia, about 45 kilometers southwest of the new BD 1 site. “The habitat changed from one of shrubland with occasional trees and riverine forests to open grasslands with few trees. Even the fossil giraffes were eating grass!”

In addition to dating a volcanic ash several meters below the site, project geologists analyzed the magnetic signature of the site’s sediments. Over the Earth’s history, its magnetic polarity has reversed at intervals that can be identified. Other earlier archaeological sites near the age of BD 1 are in “reversed” polarity sediments. The BD 1 site is in “normal” polarity sediments. The reversal from “normal” to “reversed” happened at about 2.58 million years ago, so geologists knew that BD 1 was older than all the previously known sites.

The recent discovery of older hammering or “percussive” stone tools in Kenya dated to 3.3 million years ago, described as “Lomekwian,” and butchered bones in Ethiopia shows the deep history of our ancestors making and using tools. However, recent discoveries of tools made by chimpanzees and monkeys have challenged “technological ape” ideas of human origins.

Archaeologists working at the BD 1 site wondered how their new stone tool discovery fit into this increasingly complex picture. What they found was that not only were these new tools the oldest artifacts yet ascribed to the “Oldowan,” a technology originally named after finds from Olduvai Gorge in Tanzania, but also were distinct from tools made by chimpanzees, monkeys or even earlier human ancestors.

“We expected to see some indication of an evolution from the Lomekwian to these earliest Oldowan tools. Yet when we looked closely at the patterns, there was very little connection to what is known from older archaeological sites or to the tools modern primates are making,” said Will Archer of the Max Planck Institute for Evolutionary Anthropology in Leipzig and the University of Cape Town.

The major differences appear to be the ability for our ancestors to systematically chip off smaller sharp-edged tools from larger nodules of stone. Chimpanzees and monkeys generally use tools for percussive activities, to hammer and bash food items like nuts and shellfish, which seems to have been the case with the 3.3 million year old Lomekwian tools as well.

Something changed by 2.6 million years ago, and our ancestors became more accurate and skilled at striking the edge of stones to make tools. The BD 1 artifacts captures this shift.

It appears that this shift in tool making occurred around the same time that our ancestor’s teeth began to change. This can be seen in the Homo jaw from Ledi-Geraru. As our ancestors began to process food prior to eating using stone tools, we start to see a reduction in the size of their teeth. Our technology and biology were intimately intertwined even as early as 2.6 million years ago.

The lack of clear connections with earlier stone tool technology suggests that tool use was invented multiple times in the past.

David Braun, an archaeologist with George Washington University and the lead author on the paper, noted, “Given that primate species throughout the world routinely use stone hammers to forage for new resources, it seems very possible that throughout Africa many different human ancestors found new ways of using stone artifacts to extract resources from their environment. If our hypothesis is correct then we would expect to find some type of continuity in artifact form after 2.6 million years ago, but not prior to this time period. We need to find more sites.”

By 2.6 million years ago, there appears to be a long-term investment in tool use as part of the human condition.

Continued field investigations at the Ledi-Geraru project area are already producing more insights into the patterns of behavior in our earliest ancestors. New sites have already been found, and the Ledi-Geraru team will begin excavating them this year.

___________________________

A large green artifact found in situ at the Bokol Dora site. Right: Image of the same artifact and a three dimensional model of the same artifact. David R. Braun

___________________________

Archaeologists from the Max Planck Institute, and the Ethiopian Authority for Research and the Conservation of Cultural Heritage as well as geologists from University of Algarve study the sediments at the Bokol Dora site. Stones were placed on the contact surface during the excavation to preserve the fragile stratigraphic contacts. Erin DiMaggio

___________________________

Blade Engda of the University of Poitiers lifts an artifact from 2.6 million year old sediment exposing an imprint of the artifact on the ancient surface below. David R. Braun

___________________________

*”Earliest known Oldowan artifacts at >2.58 Ma from Ledi-Geraru, Ethiopia, highlight early technological diversity,” published in the Proceedings of the National Academy of Sciences.

Article Source: ARIZONA STATE UNIVERSITY news release

___________________________

See, first-hand, the original fossils. See original artifacts. See the actual sites. Talk with the famous scientists. Join us on this unique specialized study tour.

___________________________

Ancient feces reveal parasites in 8,000-year-old village of Çatalhöyük

UNIVERSITY OF CAMBRIDGE—New research published today in the journal Antiquity reveals that ancient feces from the prehistoric village of Çatalhöyük have provided the earliest archaeological evidence for intestinal parasite infection in the mainland Near East.

People first gave up hunting and gathering and turned to farming in the Near East, around 10,000 years ago. The settlement of Çatalhöyük is famous for being an incredibly well preserved early village founded around 7,100 BC. The population of Çatalhöyük were early farmers, growing crops such as wheat and barley, and herding sheep and goats.

“It has been suggested that this change in lifestyle resulted in a similar change in the types of diseases that affected them. As the village is one of the largest and most densely populated of its time, this study at Çatalhöyük helps us to understand that process better,” says study lead Dr Piers Mitchell of Cambridge’s Department of Archaeology.

The toilet was first invented in the 4th millennium BC in Mesopotamia, 3000 years later than when Çatalhöyük flourished. It is thought the people living at Çatalhöyük either went to the rubbish tip (midden) to open their bowels, or carried their feces from their houses to the midden in a vessel or basket to dispose of them.

“We would expect this to have put the population at risk of diseases spread by contact with human faeces, and explains why they were vulnerable to contracting whipworm,” says the study first author Marissa Ledger.

“As writing was only invented 3000 years after the time of Çatalhöyük, the people were unable to record what happened to them during their lives. This research enables us for the first time to imagine the symptoms felt by some of the prehistoric people living at Çatalhöyük who were infected by this parasite.”

To look for the eggs of intestinal parasites, Cambridge researchers Mitchell, Ledger and Evilena Anastasiou used microscopy to study preserved pieces of human feces (coprolites) from a rubbish tip, and soil formed from decomposed feces recovered from the pelvic region of burials. The samples dated from 7,100-6150 BC.

To determine whether the coprolites excavated from the midden were from human or animal feces, they were analyzed for sterols and bile acids at the University of Bristol Mass Spectrometry Facility by Helen Mackay, Lisa Marie Shillito, and Ian Bull. This analysis demonstrated that the coprolites were of human origin.

Further microscopic analysis showed that eggs of whipworm were present in two of the coprolites, demonstrating that people from the prehistoric village were infected by this intestinal parasite.

“It was a special moment to identify parasite eggs over 8000 years old,” said study co-author Evilena Anastasiou.

Whipworms are 3-5cm in length, and live on the lining of the intestines of the large bowel. Adult worms can live for 5 years. Male and female worms mate and their eggs are mixed in with the feces. Whipworm is spread by the contamination of food or drink from human feces that contain the worm eggs. A heavy infection with whipworm can lead to anaemia, diarrhoea, stunted growth and reduced intelligence in children.

“Now we need to find ancient fecal material from prehistoric hunter gathers in the Near East, to help us understand how this change in lifestyle affected their diseases.” added Mitchell.

____________________________

Çatalhoyük excavations. Stipich Béla, Wikimedia Commons

____________________________

Article Source: University of Cambridge news release

The Cambridge team worked on this project with bioarchaeologists Scott Haddow (Department of Archaeology and Art History, Koç University, Turkey) and Christopher Knüsel, (PACEA, University of Bordeaux, France) from the Human Remains Laboratory of the Çatalhöyük Research Project, led by Professor Ian Hodder (Stanford University).

Early humans deliberately recycled flint to create tiny, sharp tools

AMERICAN FRIENDS OF TEL AVIV UNIVERSITY—A new Tel Aviv University study finds that prehistoric humans “recycled” discarded or broken flint tools 400,000 years ago to create small, sharp utensils with specific functions. These recycled tools were then used with great precision and accuracy to perform specific tasks involved in the processing of animal products and vegetal materials.

The site of Qesem Cave, located just outside Tel Aviv, was discovered during a road construction project in 2000. It has since offered up countless insights into life in the region hundreds of thousands of years ago.

In collaboration with Prof. Cristina Lemorini of Sapienza University of Rome, the research was led jointly by postdoctoral fellow Dr. Flavia Venditti in collaboration with Profs. Ran Barkai and Avi Gopher. All three are members of TAU’s Department of Archaeology and Ancient Near Eastern Cultures. It was published on April 11 in the Journal of Human Evolution.

In recent years, archaeologists working in caves in Spain and North Africa and digs in Italy and Israel have unearthed evidence that prehistoric people recycled objects they used in daily life. Just as we recycle materials such as paper and plastic to manufacture new items today, early hominids collected discarded or broken tools made of flint to create new utensils for specific purposes hundreds of thousands of years ago.

“Recycling was a way of life for these people,” Prof. Barkai says. “It has long been a part of human evolution and culture. Now, for the first time, we are discovering the specific uses of the recycled ‘tool kit’ at Qesem Cave.”

Exceptional conditions in the cave allowed for the immaculate preservation of the materials, including micro residue on the surface of the flint tools.

“We used microscopic and chemical analyses to discover that these small and sharp recycled tools were specifically produced to process animal resources like meat, hide, fat and bones,” Venditti explains. “We also found evidence of plant and tuber processing, which demonstrated that they were also part of the hominids’ diet and subsistence strategies.”

According to the study, signs of use were found on the outer edges of the tiny objects, indicating targeted cutting activities related to the consumption of food: butchery activities and tuber, hide and bone processing. The researchers used two different and independent spectroscopic chemical techniques: Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy coupled with energy dispersive X-ray spectroscopy (SEM-EDX).

“The meticulous analysis we conducted allowed us to demonstrate that the small recycled flakes were used in tandem with other types of utensils. They therefore constituted a larger, more diversified tool kit in which each tool was designed for specific objectives,” Venditti says.

She adds, “The research also demonstrates that the Qesem inhabitants practiced various activities in different parts of the cave: The fireplace and the area surrounding it were eventually a central area of activity devoted to the consumption of the hunted animal and collected vegetal resources, while the so-called ‘shelf area’ was used to process animal and vegetal materials to obtain different by-products.”

“This research highlights two debated topics in the field of Paleolithic archaeology: the meaning of recycling and the functional role of small tools,” Prof. Barkai observes. “The data from the unique, well-preserved and investigated Qesem Cave serve to enrich the discussion of these phenomena in the scientific community.”

“Our data shows that lithic recycling at Qesem Cave was not occasional and not provoked by the scarcity of flint,” Venditti concludes. “On the contrary, it was a conscious behavior which allowed early humans to quickly obtain tiny sharp tools to be used in tasks where precision and accuracy were essential.”

The researchers are continuing to investigate prehistoric recycling by applying their analysis to other sites in Africa, Europe and Asia.

___________________________

Experimental activity of cutting tubers with a small recycled flake and a close-up of its prehension (inset). Flavia Venditti/AFTAU.

___________________________

Article Source: AMERICAN FRIENDS OF TEL AVIV UNIVERSITY news release

___________________________

See, first-hand, the original fossils. See original artifacts. See the actual sites. Talk with the famous scientists. Join us on this unique specialized study tour.

___________________________

Declining fertility rates may explain Neanderthal extinction, suggests new model

PLOS—A new hypothesis for Neanderthal extinction supported by population modelling is put forward in a new study* by Anna Degioanni from Aix Marseille Université, France and colleagues, published May 29, 2019 in the open-access journal PLOS ONE.

The lack of empirical data allowing testing of hypotheses is one of the biggest challenges for researchers studying Neanderthal extinction. Many hypotheses involve catastrophic events such as disease or climate change. In order to test alternative hypothetical extinction scenarios, Degioanni and colleagues created a Neanderthal population model allowing them to explore demographic factors which might have resulted in declining populations and population extinction over a period of 4,000-10,000 years (a time frame compatible with known Neanderthal history). The researchers created baseline demographic parameters for their Neanderthal extinction model (e.g. survival, migration, and fertility rates) based on observational data on modern hunter-gatherer groups and extant large apes, as well as available Neanderthal paleo-genetic and empirical data from earlier studies. The authors defined populations as extinct when they fell below 5,000 individuals.

The authors saw that in their model, extinction would have been possible within 10,000 years with a decrease in fertility rates of young (<20 year-old) Neanderthal women of just 2.7 percent; if the fertility rate decreased by 8 percent, extinction occurred within 4,000 years. If this decrease in fertility was amplified by a reduction in survival of infants (children less than one year old), a decrease in survival of just 0.4 percent could have led to extinction in 10,000 years.

The authors intended to explore possible Neanderthal extinction scenarios rather than to posit any definitive explanation. However, the researchers note that this study is the first to use empirical data to suggest that relatively minor demographic changes, such as a reduction in fertility or an increase in infant mortality, might have led to Neanderthal extinction. The authors note that modelling can be a useful tool in studying Neanderthals.

The authors add: “This study of the disappearance of the Neanderthals published today in PLOS ONE does not attempt to explain “why” the Neanderthals disappeared, but to identify “how” their demise may have taken place. This original approach is made on the basis of demographic modeling. The results suggest that a very small reduction in fertility may account for the disappearance of the Neanderthal population. According to this research, this decrease did not concern all female Neanderthals, but only the youngest (less than 20 years old).”

__________________________

Artist depiction of neanderthals at Le Moustier. Wikimedia Commons

__________________________

Article Source: PLOS news release

*Degioanni A, Bonenfant C, Cabut S, Condemi S (2019) Living on the edge: Was demographic weakness the cause of Neanderthal demise? PLoS ONE 14(5): e0216742. https://doi.org/10.1371/journal.pone.0216742

__________________________

See, first-hand, the original fossils. See original artifacts. See the actual sites. Talk with the famous scientists. Join us on this unique specialized study tour.

__________________________

Prehistoric humans may have used northern migration routes to reach eastern Asia

MAX PLANCK INSTITUTE FOR THE SCIENCE OF HUMAN HISTORY—Northern and Central Asia have been neglected in studies of early human migration, with deserts and mountains being considered uncompromising barriers. However, a new study by an international team argues that humans may have moved through these extreme settings in the past under wetter conditions. We must now reconsider where we look for the earliest traces of our species in northern Asia, as well as the zones of potential interaction with other hominins such as Neanderthals and Denisovans.

Archaeologists and palaeoanthropologists are increasingly interested in discovering the environments facing the earliest members of our species, Homo sapiens, as it moved into new parts of Eurasia in the Late Pleistocene (125,000-12,000 years ago). Much attention has focused on a ‘southern’ route around the Indian Ocean, with Northern and Central Asia being somewhat neglected. However, in a paper published in PLOS ONE, scientists of the Max Planck Institute for the History of Human Science in Jena, Germany, and colleagues at the Institute of Vertebrate Paleontology and Paleoanthropology in Beijing, China, argue that climate change may have made this a particularly dynamic region of hominin dispersal, interaction, and adaptation, and a crucial corridor for movement.

‘Heading North’ Out of Africa and into Asia

“Archaeological discussions of the migration routes of Pleistocene Homo sapiens have often focused on a ‘coastal’ route from Africa to Australia, skirting around India and Southeast Asia,” says Professor Michael Petraglia of the Max Planck Institute for the Science of Human History, a co-author of the new study. “In the context of northern Asia, a route into Siberia has been preferred, avoiding deserts such as the Gobi.” Yet over the past ten years, a variety of evidence has emerged that has suggested that areas considered inhospitable today might not have always been so in the past.

“Our previous work in Saudi Arabia, and work in the Thar Desert of India, has been key in highlighting that survey work in previously neglected regions can yield new insights into human routes and adaptations,” says Petraglia. Indeed, if Homo sapiens could cross what is now the Arabian Deserts then what would have stopped it crossing other currently arid regions such as the Gobi Desert, the Junggar Basin, and the Taklamakan Desert at different points in the past? Similarly, the Altai Mountains, the Tien Shan and the Tibetan Plateau represent a potentially new high altitude window into human evolution, especially given the recent Denisovan findings from Denisova Cave in Russia and at the Baishiya Karst Cave in China.

Nevertheless, traditional research areas, a density of archaeological sites, and assumptions about the persistence of environmental ‘extremes’ in the past has led to a focus on Siberia, rather than the potential for interior routes of human movement across northern Asia.

A “Green Gobi”?

Indeed, palaeoclimatic research in Central Asia has increasingly accumulated evidence of past lake extents, past records of changing precipitation amounts, and changing glacial extents in mountain regions, which suggest that environments could have varied dramatically in this part of the world over the course of the Pleistocene. However, the dating of many of these environmental transitions has remained broad in scale, and these records have not yet been incorporated into archaeological discussions of human arrival in northern and Central Asia.

“We factored in climate records and geographical features into GIS models for glacials (periods during which the polar ice caps were at their greatest extent) and interstadials (periods during the retreat of these ice caps) to test whether the direction of past human movement would vary, based on the presence of these environmental barriers,” says Nils Vanwezer, PhD student at the Max Planck Institute for the Science of Human History and a joint lead-author of the study.

“We found that while during ‘glacial’ conditions humans would indeed likely have been forced to travel via a northern arc through southern Siberia, during wetter conditions a number of alternative pathways would have been possible, including across a ‘green’ Gobi Desert,” he continues. Comparisons with the available palaeoenvironmental records confirm that local and regional conditions would have been very different in these parts of Asia in the past, making these ‘route’ models a definite possibility for human movement.

Where did you come from, where did you go?

“We should emphasize that these routes are not ‘real’, definite pathways of Pleistocene human movement. However, they do suggest that we should look for human presence, migration, and interaction with other hominins in new parts of Asia that have been neglected as static voids of archaeology,” says Dr. Patrick Roberts also of the Max Planck Institute for the Science of Human History, co-author of the study. “Given what we are increasingly discovering about the flexibility of our species, it would be of no surprise if we were to find early Homo sapiens in the middle of modern deserts or mountainous glacial sheets.”

“These models will stimulate new survey and fieldwork in previously forgotten regions of northern and Central Asia,” says Professor Nicole Boivin, Director of the Department of Archaeology at the Max Planck Institute for the Science of Human History, and co-author of the study. “Our next task is to undertake this work, which we will be doing in the next few years with an aim to test these new potential models of human arrival in these parts of Asia.”

_______________________________

The sand dunes of Mongol Els jutting out of the steppe in Mongolia. Many of these desert barriers only appeared after the Last Glacial Maximum (~20,000 years ago). Nils Vanwezer

_______________________________

Ancient lake landforms around Biger Nuur, Mongolia, which is evidence of larger lake sizes in the past. Nils Vanwezer

________________________

Illustrated dispersal routes from the results of the Least Cost Path analysis. The three routes from the “wet” simulations and the single route from the “dry” simulation are presented together in conjunction with palaeoclimatic extents (glaciers and palaeolakes). Nils Vanwezer and Hans Sell

________________________

Article Source: MAX PLANCK INSTITUTE FOR THE SCIENCE OF HUMAN HISTORY news release

*Heading north: Late Pleistocene environments and human dispersals in central and eastern Asia 
Authors: Feng Li*, Nils Vanwezer*, Nicole Boivin, Xing Gao, Florian Ott, Michael Petraglia, Patrick Roberts (*Co-first authors) Publication: PLOS ONE, DOI:10.1371/journal.pone.0216433. http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0216433

________________________

See, first-hand, the original fossils. See original artifacts. See the actual sites. Talk with the famous scientists. Join us on this unique specialized study tour.

________________________

Researchers wonder if ancient supernovae prompted human ancestors to walk upright

UNIVERSITY OF KANSAS, LAWRENCE—Did ancient supernovae induce proto-humans to walk on two legs, eventually resulting in homo sapiens with hands free to build cathedrals, design rockets and snap iPhone selfies?

A paper published today in the Journal of Geology makes the case: Supernovae bombarded Earth with cosmic energy starting as many as 8 million years ago, with a peak some 2.6 million years ago, initiating an avalanche of electrons in the lower atmosphere and setting off a chain of events that feasibly ended with bipedal hominins such as Homo habilis, dubbed “handy man.”

The authors believe atmospheric ionization probably triggered an enormous upsurge in cloud-to-ground lightning strikes that ignited forest fires around the globe. These infernos could be one reason ancestors of homo sapiens developed bipedalism—to adapt in savannas that replaced torched forests in northeast Africa.

“It is thought there was already some tendency for hominins to walk on two legs, even before this event,” said lead author Adrian Melott, professor emeritus of physics & astronomy at the University of Kansas. “But they were mainly adapted for climbing around in trees. After this conversion to savanna, they would much more often have to walk from one tree to another across the grassland, and so they become better at walking upright. They could see over the tops of grass and watch for predators. It’s thought this conversion to savanna contributed to bipedalism as it became more and more dominant in human ancestors.”

Based on a “telltale” layer of iron-60 deposits lining the world’s sea beds, astronomers have high confidence supernovae exploded in Earth’s immediate cosmic neighborhood—between 100 and only 50 parsecs (163 light years) away—during the transition from the Pliocene Epoch to the Ice Age.

“We calculated the ionization of the atmosphere from cosmic rays which would come from a supernova about as far away as the iron-60 deposits indicate,” Melott said. “It appears that this was the closest one in a much longer series. We contend it would increase the ionization of the lower atmosphere by 50-fold. Usually, you don’t get lower-atmosphere ionization because cosmic rays don’t penetrate that far, but the more energetic ones from supernovae come right down to the surface—so there would be a lot of electrons being knocked out of the atmosphere.”

According to Melott and co-author Brian Thomas of Washburn University, ionization in the lower atmosphere meant an abundance of electrons would form more pathways for lightning strikes.

“The bottom mile or so of atmosphere gets affected in ways it normally never does,” Melott said. “When high-energy cosmic rays hit atoms and molecules in the atmosphere, they knock electrons out of them—so these electrons are running around loose instead of bound to atoms. Ordinarily, in the lightning process, there’s a buildup of voltage between clouds or the clouds and the ground—but current can’t flow because not enough electrons are around to carry it. So, it has to build up high voltage before electrons start moving. Once they’re moving, electrons knock more electrons out of more atoms, and it builds to a lightning bolt. But with this ionization, that process can get started a lot more easily, so there would be a lot more lightning bolts.”

The KU researcher said the probability that this lightning spike touched off a worldwide upsurge in wildfires is supported by the discovery of carbon deposits found in soils that correspond with the timing of the cosmic-ray bombardment.

“The observation is that there’s a lot more charcoal and soot in the world starting a few million years ago,” Melott said. “It’s all over the place, and nobody has any explanation for why it would have happened all over the world in different climate zones. This could be an explanation. That increase in fires is thought to have stimulated the transition from woodland to savanna in a lot of places—where you had forests, now you had mostly open grassland with shrubby things here and there. That’s thought to be related to human evolution in northeast Africa. Specifically, in the Great Rift Valley where you get all these hominin fossils.”

Melott said no such event is likely to occur again anytime soon. The nearest star capable of exploding into a supernova in the next million years is Betelgeuse, some 200 parsecs (652 light years) from Earth.

“Betelgeuse is too far away to have effects anywhere near this strong,” Melott said. “So, don’t worry about this. Worry about solar proton events. That’s the danger for us with our technology—a solar flare that knocks out electrical power. Just imagine months without electricity.”

_____________________________

A new paper from a University of Kansas researcher suggests bipedalism arose when ancient supernovae caused lightning that burned Earth’s forests and prompted human ancestors to walk upright. NASA

_____________________________

Article Source: University of Kansas news release

Unique Iron Age shield gives insight into prehistoric technology

UNIVERSITY OF YORK—A unique bark shield, thought to have been constructed with wooden laths during the Iron Age, has provided new insight into the construction and design of prehistoric weaponry.

The only one of its kind ever found in Europe, the shield was found south of Leicester on the Everards Meadows site, in what is believed to have been a livestock watering hole.

Following analysis of the construction of the shield by Michael Bamforth at the University of York, it became apparent that the shield had been carefully constructed with wooden laths to stiffen the structure, a wooden edging rim, and a woven boss to protect the wooden handle.

Although prior evidence has shown that prehistoric people used bark to make bowls and boxes, this is the first time researchers have seen the material used for a weapon of war.

The outside of the shield has been painted and scored in red chequerboard decoration. Radiocarbon dating has revealed that the shield was made between 395 and 255 BC.

The shield was severely damaged before being deposited in the ground, with some of the damage likely to have been caused by the pointed tips of spears. Further analysis is planned to help understand if this occurred in battle or as an act of ritual destruction.

Michael Bamforth, from the University of York’s Department of Archaeology, said: “This truly astonishing and unparalleled artifact has given us an insight into prehistoric technology that we could never have guessed at.

“Although we know that bark has many uses, including making boxes and containers it doesn’t survive well in the archaeological record. Initially we didn’t think bark could be strong enough to use as a shield to defend against spears and swords and we wondered if it could be for ceremonial use.

“It was only through experimentation that we realized it could be tough enough to protect against blows from metal weapons. Although a bark shield is not as strong as one made from wood or metal, it would be much lighter allowing the user much more freedom of movement.”

The shield was first discovered by archaeologists at the University of Leicester’s Archaeological Services in 2015 at an Iron Age site within a farming landscape known to have been used and managed by Iron Age communities, with the Fosse Way Roman road running close by.

Many cutting-edge analytical techniques have been used to understand the construction of the object, including CT scanning and 3D printing.

Dr Rachel Crellin, Lecturer in later Prehistory at the University of Leicester, who assessed the evidence for impact damage, said: “The first time I saw the shield I was absolutely awed by it: the complex structure, the careful decorations, and the beautiful boss.

“I must admit I was initially skeptical about whether the shield would have functioned effectively, however the experimental work showed that the shield would have worked very effectively, and analysis of the surface of the object has identified evidence of use.”

___________________________

The unique find has given new insight into prehistoric technology. University of York

___________________________

Article Source: University of York news release

Cocktails with Cleopatra?

THE HEBREW UNIVERSITY OF JERUSALEM—What kind of beer did the Pharaohs drink? In ancient times, beer was an important ingredient in people’s daily diet. Great powers were attributed to beer in the ancient world, particularly for religious worship and healing properties. The pottery used to produce beer in antiquity served as the basis for this new research. The research was led by Dr. Ronen Hazan and Dr. Michael Klutstein, microbiologists from the School of Dental Medicine at the Hebrew University of Jerusalem (HUJI). They examined the colonies of yeast that formed and settled in the pottery’s nano-pores. Ultimately, they were able to resurrect this yeast to create a high-quality beer…that’s approximately 5,000 years old.

Many cooks were invited into this ‘beer kitchen’ to isolate the yeast specimens from the ancient debris and to create a beer with it. First the scientists reached out to vintners at Kadma Winery. This winery still produces wine in clay vessels, proving that yeast may be safely removed from pottery, even if it had lain dormant in the sun for years.

The yeast was then photographed by Dr. Tziona Ben-Gedalya at Ariel University’s Eastern R&D Center. Following her initial examination, the team reached out to archaeologists Dr. Yitzhak Paz from the Israel Antiquities Authority (IAI), Professor Aren Maeir at Bar Ilan University and Professors Yuval Gadot and Oded Lipschits from Tel Aviv University. These archaeologists gave them shards of pottery that had been used as beer and mead (honey wine) jugs back in ancient times—and miraculously, still had yeast specimens stuck inside. These jars date back to the reign of Egyptian Pharaoh Narmer (roughly 3000 BCE), to Aramean King Hazael (800 BCE) and to Prophet Nehemiah (400 BCE) who, according to the bible, governed Judea under Persian rule.

The researchers, with the help of HUJI student Tzemach Aouizerat, cleaned and sequenced the full genome of each yeast specimen and turned them over to Dr. Amir Szitenberg at the Dead Sea-Arava Science Center for analysis. Szitenberg found that these 5,000-year yeast cultures are similar to those used in traditional African brews, such as the Ethiopian honey wine tej, and to modern beer yeast.

Now it was time to recreate the ancient brew. Local Israeli beer expert Itai Gutman helped the scientists make the beer and the brew was sampled by Ariel University’s Dr. Elyashiv Drori, as well as by certified tasters from the International Beer Judge Certification Program (BJCP), under the direction of brewer and Biratenu owner Shmuel Nakai. The testers gave the beer a thumbs up, deeming it high-quality and safe for consumption.

Dr. Ronen Hazan, Hebrew University-Hadassah School of Dental Medicine: “The greatest wonder here is that the yeast colonies survived within the vessel for thousands of years—just waiting to be excavated and grown. This ancient yeast allowed us to create beer that lets us know what ancient Philistine and Egyptian beer tasted like. By the way, the beer isn’t bad. Aside from the gimmick of drinking beer from the time of King Pharaoh, this research is extremely important to the field of experimental archaeology—a field that seeks to reconstruct the past. Our research offers new tools to examine ancient methods, and enables us to taste the flavors of the past.”

Dr. Yitzchak Paz, Israel Antiquities Authority: “We are talking about a real breakthrough here. This is the first time we succeeded in producing ancient alcohol from ancient yeast. In other words, from the original substances from which alcohol was produced. This has never been done before.”

Prof. Yuval Gadot, Tel Aviv University’s Department of Archaeology and Ancient Near Eastern Cultures: “We dug at Ramat Rachel, the largest Persian site in the Judaean kingdom, and found a large concentration of jugs with the letters J, H, D – Yahud – written on them. In a royal site like Ramat Rachel it makes sense that alcohol would be consumed at the home of the Persian governor.”

Prof. Aren Maeir, Bar-Ilan University’s Department of Land of Israel Studies and Archaeology: “These findings paint a portrait that supports the biblical image of drunken Philistines.”

___________________________

Beer cruse from Tel Tzafit/Gath archaeological digs, from which Philistine beer was produced. Yaniv Berman/Israel Antiquities Authority.

___________________________

Dr. Ronen Hazan tests a sample at Hadassah Medical Center-Hebrew University of Jerusalem School. Yaniv Berman, Israel Antiquities Authority.

___________________________

L’chaim! The Israeli research team samples their ancient brew. Yaniv Berman, Israel Antiquities Authority.

___________________________

Article Source: THE HEBREW UNIVERSITY OF JERUSALEM news release

Civil War plant medicines blast drug-resistant bacteria in lab tests

EMORY HEALTH SCIENCES—During the height of the Civil War, the Confederate Surgeon General commissioned a guide to traditional plant remedies of the South, as battlefield physicians faced high rates of infections among the wounded and shortages of conventional medicines. A new study of three of the plants from this guide—the white oak, the tulip poplar and the devil’s walking stick—finds that they have antiseptic properties.

Scientific Reports is publishing the results of the study led by scientists at Emory University. The results show that extracts from the plants have antimicrobial activity against one or more of a trio of dangerous species of multi-drug-resistant bacteria associated with wound infections: Acinetobacter baumanniiStaphylococcus aureus and Klebsiella pneumoniae.

“Our findings suggest that the use of these topical therapies may have saved some limbs, and maybe even lives, during the Civil War,” says Cassandra Quave, senior author of the paper and assistant professor at Emory’s Center for the Study of Human Health and the School of Medicine’s Department of Dermatology.

Quave is an ethnobotanist, studying how people use plants in traditional healing practices, to uncover promising candidates for new drugs. “Ethnobotany is essentially the science of survival—how people get by when limited to what’s available in their immediate environment,” she says. “The Civil War guide to plant remedies is a great example of that.”

“Our research might one day benefit modern wound care, if we can identify which compounds are responsible for the antimicrobial activity,” adds Micah Dettweiler, the first author of the paper.

If the active ingredients are identified, “it is my hope that we can then [further] test these molecules in our world-renowned models of bacterial infection,” says co-author Daniel Zurawski, chief of pathogenesis and virulence for the Wound Infections Department at the Walter Reed Army Institute of Research.

“I’ve always been a Civil War buff,” Zurawski adds. “I am also a firm believer in learning everything we can garner from the past so we can benefit now from the knowledge and wisdom of our ancestors.”

Additional co-authors on the paper include Ryan Reddinger, from the Walter Reed Army Institute of Research; James Lyles, from the Quave lab; and Kate Nelson, from Emory School of Medicine’s Department of Dermatology.

Dettweiler was still an Emory undergraduate when he heard about the Civil War plant guide and decided to research it for his honors thesis. He has since graduated with a degree in biology and now works as a research specialist in the Quave lab.

“I was surprised to learn that far more Civil War soldiers died from disease than in battle,” he says. “I was also surprised at how common amputation was as a medical treatment for an infected wound.”

About one in 13 surviving Civil War soldiers went home with one or more missing limbs, according to the American Battlefield Trust.

At the time of the Civil War, from 1861 to 1865, germ theory was in its developmental stages and only gradually beginning to gain acceptance. Formal medical training for physicians was also in its infancy. An antiseptic was simply defined as a tonic used to prevent “mortification of the flesh.” Iodine and bromine were sometimes used to treat infections, according to the National Museum of Civil War Medicine, although the reason for their effectiveness was unknown.

Other conventional medicines available at the time included quinine, for treating malaria, and morphine and chloroform, to block pain.

Military field hospitals within the Confederacy, however, did not have reliable access to these medicines due to a blockade—the Union Navy closely monitored the major ports of the South to prevent the Confederacy from trading.

Seeking alternatives, the Confederacy commissioned Francis Porcher, a botanist and surgeon from South Carolina, to compile a book of medicinal plants of the Southern states, including plant remedies used by Native Americans and enslaved Africans. “Resources of the Southern Fields and Forests,” published in 1863, was a major compendium of uses for different plants, including a description of 37 species for treating gangrene and other infections. Samuel Moore, the Confederate Surgeon General, drew from Porcher’s work to produce a document called “Standard supply table of the indigenous remedies for field service and the sick in general hospitals.”

For the current study, the researchers focused on three plant species Porcher cited for antiseptic use that grow in Lullwater Preserve on the Emory campus. They included two common hardwood trees—the white oak (Quercus alba) and the tulip poplar (Liriodendron tulipifera)—as well as a thorny, woody shrub commonly known as the devil’s walking stick (Aralia spinosa).

Samples of these three plants were gathered from campus specimens, based on Porcher’s specifications. Extracts were taken from white oak bark and galls; tulip poplar leaves, root inner bark and branch bark; and the devil’s walking stick leaves. The extracts were then tested on three species of multi-drug-resistant bacteria commonly found in wound infections.

Aceinetobacter baumannii —better known as “Iraqibacter” due to its association with wounded combat troops returning from the Iraq War—exhibits extensive resistance to most first-line antibiotics. “It’s emerging as a major threat for soldiers recovering from battle wounds and for hospitals in general,” Quave says.

Staphylococcus aureus is considered the most dangerous of many common staph bacteria and can spread from skin infections or medical devices through the bloodstream and infect distant organs. Klebsiella pneumoniae is another leading cause of hospital infection and can result in life-threatening cases of pneumonia and septic shock.

Laboratory tests showed that extracts from the white oak and tulip poplar inhibited the growth of S. aureus, while the white oak extracts also inhibited the growth of A. baumannii and K. pneumoniae. Extracts from both of these plants also inhibited S. aureus from forming biofilms, which can act like a shield against antibiotics.

Extracts from the devil’s walking stick inhibited both biofilm formation and quorum sensing in S. aureus. Quorum sensing is a signaling system that staph bacteria use to manufacture toxins and ramp up virulence. Blocking this system essentially “disarms” the bacteria.

Traditional plant remedies are often dismissed if they don’t actively attack and kill pathogens, Quave notes, adding: “There are many more ways to help cure infections, and we need to focus on them in the era of drug-resistant bacteria.”

“Plants have a great wealth of chemical diversity, which is one more reason to protect natural environments,” Dettweiler says. He plans to go to graduate school with a focus on researching plants for either medical or agricultural purposes. “I’m interested in plants because, even though they don’t move from place to place, they are extremely powerful and important.”

____________________________

An 1863 copy of “Resources of the Southern Fields and Forests,” by Francis Porcher, from the Stuart A. Rose Manuscript, Archives and Rare Book Library at Emory University. Stephen Nowland, Emory University

____________________________

White oak leaves and marble-sized galls. Galls are growths on plants caused by invasions of parasites, viruses, fungi and bacteria — making galls centers of activity for both attacks on a plant’s system and a plant’s defense of those attacks. Stephen Nowland, Emory University

____________________________

Article Source: Emory Health Sciences news release

Eastern forests shaped more by Native Americans’ burning than climate change

PENN STATE—Native Americans’ use of fire to manage vegetation in what is now the Eastern United States was more profound than previously believed, according to a Penn State researcher who determined that forest composition change in the region was caused more by land use than climate change.

“I believe Native Americans were excellent vegetation managers and we can learn a lot from them about how to best manage forests of the U.S.,” said Marc Abrams, professor of forest ecology and physiology in the College of Agricultural Sciences. “Native Americans knew that to regenerate plant species that they wanted for food, and to feed game animals they relied on, they needed to burn the forest understory regularly.”

Over the last 2,000 years at least, according to Abrams—who for three decades has been studying past and present qualities of eastern U.S. forests—frequent and widespread human-caused fire resulted in the predominance of fire-adapted tree species. And in the time since burning has been curtailed, forests are changing, with species such as oak, hickory and pine losing ground.

“The debate about whether forest composition has been largely determined by land use or climate continues, but a new study strongly suggests anthropogenic fire has been the major driver of forest change in the East,” said Abrams. “That is important to know because climate change is taking on an ever larger proportion of scientific endeavor.”

But this phenomenon does not apply to other regions, Abrams noted. In the western U.S., for example, climate change has been much more pronounced than in the East. That region has received much more warming and much more drought, he explained.

“Here in the East, we have had a slight increase in precipitation that has ameliorated the warming,” said Abrams.

To learn the drivers of forest change, researchers used a novel approach, analyzing both pollen and charcoal fossil records along with tree-census studies to compare historic and modern tree composition in the forests of eastern North America. They looked at seven forest types in the north and central regions of the eastern United States. Those forest types encompass two distinct floristic zones—conifer-northern hardwood and sub-boreal to the north, and oak-pine to the south.

The researchers found that in the northernmost forests, present-day pollen and tree-survey data revealed significant declines in beech, pine, hemlock and larches, and increases in maple, poplar, ash, oak and fir. In forests to the south, both witness tree and pollen records pointed to historic oak and pine domination, with declines in oak and chestnut and increases in maple and birch, based on present-day data.

“Modern forests are dominated by tree species that are increasingly cool-adapted, shade-tolerant, drought-intolerant pyrophobes—trees that are reduced when exposed to repeated forest burning,” Abrams said. “Species such as oak are largely promoted by low-to moderate-level forest fires. Furthermore, this change in forest composition is making eastern forests more vulnerable to future fire and drought.”

Researchers also included human population data for the region, going back 2,000 years, to bolster their findings, which recently were published in the Annals of Forest Science. After hundreds of years of fairly stable levels of fire caused by relatively low numbers of Native Americans in the region, they report, the most significant escalation in burning followed the dramatic increase in human population associated with European settlement prior to the early 20th century. Moreover, it appears that low numbers of Native Americans were capable of burning large areas of the eastern U.S. and did so repeatedly.

After 1940, they found, fire suppression was an ecologically transformative event in all forests.

“Our analysis identifies multiple instances in which fire and vegetation changes were likely driven by shifts in human population and land use beyond those expected from climate alone,” Abrams said. “After Smokey Bear came on the scene, fire was mostly shut down throughout the U.S. and we have been paying a big price for that in terms of forest change. We went from a moderate amount of fire to too much fire to near zero fire—and we need to get back to that middle ground in terms of our vegetation management.”

___________________________

Pollen and tree survey map. Marc Abrams, Penn State

___________________________

Article Source: Penn State University news release

What’s in a Face: More Light on Neanderthal Facial Structure

The Royal Society, London—Our closest extinct human species cousins the Neanderthals are, outside of our own species (Homo sapiens), the most studied human species. But researchers are finding that the book is far from closed on our understanding of what the Neanderthals looked like, how they behaved, and what capabilities they demonstrated. Now, a recent study has shed additional light on Neanderthal facial morphology — the structure and form of the face, internal and external — based on an examination and interpretation of the teeth and nasal cavities —by using computer simulations. 

Three adaptive hypotheses have been forwarded to explain the distinctive Neanderthal face: (1) improved ability to accommodate high dental anterior [situated toward the front] biting force for food consumption and other possible uses of the teeth; (2) more effective conditioning of cold and/or dry air [warming and humidifying the air that enters the body through the nose]; and (3) adaptation to facilitate greater ventilatory demands [greater volume of air intake/inhale and exhale]. Stephen Wroe, Professor of Zoology at the University of New England, and his colleagues tested these hypotheses by using three-dimensional models of Neanderthals, modern humans, and a close extinct hominid (Homo heidelbergensis — thought by many scholars to be ancestral to Neanderthals), all based on fossil evidence recovered from a variety of sites, and applying finite element analysis (FEA — a numerical method usually used for solving problems of engineering and mathematical physics) and computational fluid dynamics (CFD — a branch of fluid mechanics that uses numerical analysis and data structures to analyze and solve problems that involve fluid flows). The researchers claim that it is the most comprehensive application of either approach applied to date to the subject and the first to include both. The results, according to the research team, show “few differences between H. heidelbergensis, modern humans, and Neanderthals in their capacities to sustain high anterior tooth loadings”*,  and that “nasal cavities of Neanderthals and especially modern humans condition air more efficiently than does that of H. heidelbergensis, suggesting that both evolved to better withstand cold and/or dry climates”* than other, earlier Homo species. “We further find that Neanderthals could move considerably more air through the nasal pathway than could H. heidelbergensis or modern humans”*, wrote Wroe, et al., in the study report. The latter findings are consistent with previous hypotheses that Neanderthal facial morphology evolved to reflect improved capacities to better condition cold, dry air, and to move greater air volumes in response to higher energetic requirements.

The study supports the view that Neanderthals were well-adapted to survive and thrive as highly active and successful hunter-gatherers in the climate of glacial and interglacial Eurasia when large Ice Age mammals were present and targets of human hunting.  

____________________________

“Broken Hill Skull” from Kabwe, Zambia (replica, Museum Mauer, near Heidelberg, Germany). Type specimen of Homo rhodesiensis, renamed as Homo erectus, also sometimes named Homo heidelbergensis or “archaic Homo sapiens”. Used as one of the models for analysis in the study. Gerbil, Wikimedia Commons

____________________________

Neanderthal skull from Forbes’ Quarry, Gibraltar. Discovered 1848. Used as one of the models in study. AquilaGib, Wikimedia Commons

______________________

* Wroe S. et al., 2018, Computer simulations show that Neanderthal facial morphology represents adaptation to cold and high energy demands, but not heavy biting. Proc. R. Soc. B 285: 20180085.http://dx.doi.org/10.1098/rspb.2018.0085

The study was published in the proceedings of the Royal Society, London.

______________________

See, first-hand, the original fossils. See original artifacts. See the actual sites. Talk with the famous scientists. Join us on this unique specialized study tour.

______________________