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KERA: DNA From Kennewick Man Shows He Was Native American, Says Study With SMU Ties

The skull of Kennewick Man and a sculpted bust by StudioEIS based on forensic facial reconstruction by sculptor Amanda Danning. (Credit: Brittany Tatchell)
The skull of Kennewick Man and a sculpted bust by StudioEIS based on forensic facial reconstruction by sculptor Amanda Danning. (Credit: Brittany Tatchell)

KERA News reporter Justin Martin interviewed SMU archaeolologist David Meltzer from the SMU Department of Anthropology in Dedman College of Humanities and Sciences about the controversial 8,500-year-old skeleton called Kennewick Man.

Meltzer was part of a new study, “The Ancestry and Affiliations of Kennewick Man” in the journal Nature, that analyzed Kennewick Man’s genome sequence and found that Kennewick Man is more closely related to modern Native Americans than to any other population worldwide.

The study was led by the Centre for GeoGenetics at the University of Copenhagen and was published online June 18, 2015 in Nature.

Meltzer researches the origins, antiquity, and adaptations of the first Americans – Paleoindians – who colonized the North American continent at the end of the Ice Age. He focuses on how these hunter-gatherers met the challenges of moving across and adapting to the vast, ecologically diverse landscape of Late Glacial North America during a time of significant climate change.

Meltzer’s archaeology and history research has been supported by grants from the National Geographic Society, the National Science Foundation, The Potts and Sibley Foundation and the Smithsonian Institution. In 1996, he received a research endowment from Joseph and Ruth Cramer to establish the Quest Archaeological Research Program at SMU, which will support in perpetuity research on the earliest occupants of North America.

Meltzer is a member of the National Academy of Sciences and the Henderson-Morrison Professor of Prehistory in SMU’s Dedman College.

The KERA interview aired July 14, 2015.

Listen to the interview, “DNA From Kennewick Man Shows He Was Native American, Says Study With SMU Ties.”

EXCERPT:

By Justin Martin
KERA News

Nearly two decades after an ancient skeleton was discovered in Kennewick, Washington, scientists finally have a better idea about its hotly-debated origins. SMU anthropologist David Meltzer co-authored a recent study into what’s been dubbed the Kennewick Man.

Interview Highlights: David Meltzer …

… on the age of the ‘Kennewick Man’: “Kennewick man is about 8,500 years old and that’s based on radiocarbon dating of the actual skeleton, and his origins have been quite controversial. The question was: Was he related to modern day Native Americans or does he represent an earlier population that came into the new world, which was in turn subsequently replaced by modern day Native Americans? What the DNA evidence shows is he was one of them, he was a Native American.”

… on why it took so long to figure out his origins: “In the late 90s, DNA efforts were made to recover something, but in those days the techniques and technologies was so very primitive. You needed a decade or more of ancient DNA work to bring it up to speed to make it possible to reconstruct Kennewick’s DNA.”

… on how the research turned into a lawsuit: “The Army Corps of Engineers, at the request of the Native American tribes, sought to reinter Kennewick into the ground immediately. The tribes had made the argument that Kennewick was one of their ancestors and that therefore his remains fell under what is referred to as NAGPRA or the ‘Native Americans Graves Protection and Repatriation Act.’ A number of individuals sued in turn claiming that he wasn’t a Native American and therefore NAGPRA does not apply. The lawsuit started in the fall of 1996, it was finally resolved in 2004. An appeals court said he’s not a Native American [and to go] ahead and do a study. Here’s the ironic part — as a part of that study, a bit of the bone was provided to my colleague … who analyzed the DNA, which demonstrates in fact that he is a Native American. The lawsuit to basically show that he wasn’t turned out to show that in the end, he was.”

Listen to the interview, “DNA From Kennewick Man Shows He Was Native American, Says Study With SMU Ties.”

Follow SMUResearch.com on twitter at @smuresearch.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information see www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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Kennewick Man: genome sequence of 8,500-year-old skeleton solves scientific controversy

New study based on skeleton’s genome sequence shows Kennewick Man is in fact more closely related to modern Native Americans

The locale in Washington State where Kennewick Man was discovered in 1996.
The locale in Washington State where Kennewick Man was discovered in 1996.

An 8,500-year-old male skeleton discovered in 1996 in the Columbia River in Washington State has been the focus of a bitter dispute between Native Americans and American scientists, and even within the American scientific community. Craniometric analysis showed that Kennewick Man, as the skeleton was named, resembled populations in Japan, Polynesia or even Europe, suggesting he was not ancestral to Native Americans, a finding that helped block Native Americans’ request for a repatriation of the skeleton.

Now a new study, “The Ancestry and Affiliations of Kennewick Man” in the journal Nature, based on his genome sequence shows that Kennewick Man is in fact more closely related to modern Native Americans, than to any other population worldwide and, further, that the earlier craniometrics analyses cannot be supported.

The study was led by the Centre for GeoGenetics at the University of Copenhagen and is published online June 18, 2015 in Nature.

The human skeletal remains of "Kennewick Man were found below the surface of Lake Wallula, a section of the Columbia River. (Credit: J. Chatters)
The human skeletal remains of “Kennewick Man were found below the surface of Lake Wallula, a section of the Columbia River. (Credit: J. Chatters)


When Kennewick Man was discovered in 1996 initial cranial analysis suggested that he was a historic-period Euro-American. Later radiocarbon dating of the bones revealed an age of about 8,000-9,000 years Before the Present making him pre-Columbian in age. This sparked a legal battle over the disposition of the skeletal remains.

Tribes inhabiting the region where Kennewick Man was found requested the remains to be turned over to them for reburial based on him being Native American and ancestor to them.

The U.S. Army Corps of Engineers, which managed the land where the skeleton was found, was prepared to do so. However, this was blocked by a lawsuit by eight scientists questioning his Native American origins and generated a scientific stir as to Kennewick Man’s ancestry and affiliation.

The lawsuit lacerated the anthropological community, badly damaged relations with Native American groups, and triggered a divisive, long-running and expensive legal tug of war that ended in 2004 with a ruling in favor of a more detailed study, a study published in 2014.

The skull of Kennewick Man and a sculpted bust by StudioEIS based on forensic facial reconstruction by sculptor Amanda Danning. (Credit: Brittany Tatchell)
The skull of Kennewick Man and a sculpted bust by StudioEIS based on forensic facial reconstruction by sculptor Amanda Danning. (Credit: Brittany Tatchell)

Kennewick Man – a Native American ancestor
The 2014 study included isotopic, anatomical and morphometric analysis. That study concluded that Kennewick Man resembles circumpacific populations, particularly the Japanese Ainu and Polynesians and also has certain “European-like morphological” traits, and reinforced the claim that he was anatomically distinct from modern Native Americans.

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However, those recent studies did not include DNA analysis, which prompted a new study of the genome sequence of Kennewick. Leader of this new study is geneticist and Lundbeck Foundation Professor Eske Willerslev from the Centre for GeoGenetics, University of Copenhagen – a center funded by the Danish National Research Foundation. About the new results Willerslev says:

“Comparing the genome sequence of Kennewick Man to genome wide data of contemporary human populations across the world clearly shows that Native Americans of today are his closest living relatives. Our study further shows that members of the Confederated Tribes of the Colville Reservation that belongs to the Claimant Plateau tribes of the Pacific Northwest, who originally claimed him as their ancestor, is one of the groups showing close affinities to Kennewick Man or at least to the population to which he belonged.”

And anthropologist David Meltzer from the Department of Anthropology, Southern Methodist University in Dallas adds:

“The trail from past to present is often poorly marked in the archaeological record, making it difficult to follow a people through time by their changing artifacts or their rarely encountered and often fragmentary skeletal remains. With the recovery and careful analysis of ancient DNA, we can better follow that trail: in Kennewick’s case, it leads unerringly to Native Americans.”

Rejecting a hypothesis
Working in an ultraclean and over-pressurized laboratory first author on the paper Postdoctoral researcher Morten Rasmussen from the Centre for GeoGenetics has been heavily involved with analyzing Kennewick’s bones. Rasmussen says:

“Although the exterior preservation of the skeleton was pristine, the DNA in the sample was highly degraded and dominated by DNA from soil bacteria and other environmental sources. With the little material we had available, we applied the newest methods to squeeze every piece of information out of the bone.”

About the results seen in a global context Associate Professor Martin Sikora from the Centre for GeoGenetics says:

“The wealth of genomic data available for modern humans allowed us to directly test whether the Kennewick Man was more closely related to populations other than Native Americans, such as the Ainu or peoples from Polynesia. What we found instead was that he was only distantly related to those peoples, therefore clearly rejecting that hypothesis.”

However, the researchers have also been able to narrow Kennewick Man’s affiliations to modern Native Americans. Rasmus Nielsen is Professor at the Department of Integrative Biology, University of California, Berkeley. On this issue Nielsen says:

“For an 8,500 year old sample, we will probably never be able to show affiliation with any specific tribe, but we can show that the Kennewick Man is more closely related to some members of the Confederated Tribes of the Colville Reservation in the state of Washington, than to many other contemporary Native Americans.”

Still a loose end
Rather than developing new DNA methods for analyzing the genome data the researchers chose standard and widely accepted methods for analyzing ancient DNA. One thing that always lurks in the background of this kind of work is contamination from modern DNA. Associate Professor Anders Albrechtsen from the Biological Institute, University of Copenhagen, has been involved in the part of bioinformatics. About the danger of contamination in the present study Albrechtsen says:

“Ancient samples have very little endogenous DNA. Therefore, we have to be extremely careful not to contaminate the samples with even the slightest amount of modern DNA. In this study we were successful in obtaining human DNA that almost exclusively was of ancient origin and we were able to show that the source of the DNA was a single individual; the Kennewick Man.”

As the earlier data from Kennewick Man had been based on cranial morphology the research group chose also to make use of this method. Professor Christoph Zollikofer and Dr. Marcia Ponce de León from the Anthropological Institute, University of Zurich are world-leading experts on cranial analyses. They did not make new measurements but re-examined the earlier data and concluded the following:

“We started with the observation that cranial variation within human populations – both past and present – is high, and that it is typically higher than variation among populations. One important consequence of this is that, for single individuals such as Kennewick Man, cranial data do not reliably indicate population affiliations. In fact, drawing reliable inferences requires hundreds of independent features – precisely the kind of information that is now available through the new genomic analyses.”

The new study pinpoints the population origins of this heretofore highly controversial find along the banks of the Columbia River in Washington, but comes short of naming the closest modern day relatives. Professor Eske Willerslev ends:

“It is important to emphasize that currently it is not possible to identify which modern Native Americans are most closely related to Kennewick Man, since our comparative DNA database is limited, particularly for Native American groups in the United States. However, among the groups for which we have sufficient genetic data, we find that the Confederated Tribes of the Colville Reservation to be one of the groups showing close affinities to Kennewick Man or at least to the population to which he belonged. Additional modern descendants could be identified as more Native American groups are sequenced. — University of Copenhagen, SMU

Follow SMUResearch.com on twitter at @smuresearch.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information see www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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SMU seismologist Brian Stump named AAAS Fellow for distinguished scientific contributions

Stump’s work in underground nuclear explosion monitoring is significant in support of the Comprehensive Nuclear-Test-Ban Treaty

SMU seismologist Brian Stump has been named an American Association for the Advancement of Science (AAAS) Fellow for distinguished contributions to his field, particularly in the area of seismic monitoring in support of the Comprehensive Nuclear-Test-Ban Treaty.

AAAS is the world’s largest general scientific society and publisher of the journal Science. Stump, Albritton Chair of Geological Sciences in the Roy M. Huffington Department of Earth Sciences in SMU’s Dedman College, is the fifth professor at Southern Methodist University to be recognized as an AAAS Fellow.

“Dr. Stump is a scientist of the first rank and brings the results of his outstanding research into the classroom, where his students benefit from his example and insights as a scholar,” said SMU President R. Gerald Turner. “He richly deserves the AAAS recognition by his peers and we are proud that he calls SMU home.”

Stump is well known regionally for his continued work researching the increase of small earthquakes that have been occurring in North Texas since 2008.

But his work in detecting ground motion from explosions has for more than 20 years proved invaluable to the United States government in ensuring that the world’s nuclear powers abide by their agreements related to underground nuclear testing.

“Brian’s work has been seminal in scientists’ ability to rapidly and accurately discern the difference between an earthquake, a conventional explosion — such as might occur in a mining accident — and a nuclear test,” said James E. Quick, SMU vice president for research and dean of graduate studies. “His research is tremendously important to all of us, and yet he is equally committed to teaching and serving as a mentor to young faculty.”

Stump served as scientific adviser to the U.S. delegation to the Conference on Disarmament from 1994 through 1996 and continues to be called upon frequently to assist the U.S. government in the interpretation of seismic and acoustic data.

“I’m humbled by the recognition by the AAAS that science impacts the society in which we live,” Stump said. “I really believe that. And the work we’ve done at SMU on inducted seismicity in North Texas has that same blend of real science and societal impact.”

For the last five years Stump has chaired the Air Force Technical Applications Center Seismic Review Panel, which provides a review of federally funded efforts in nuclear monitoring. He served as a committee member on the National Academy of Sciences Committee on Seismology and Continental Dynamics from 2007 through 2012, and recently completed a term as board chair for Incorporated Research Institutions for Seismology (IRIS), a consortium of more than 100 universities funded by the National Science Foundation.

Stump joined SMU in 1983 from the Seismology Section of the Air Force Weapons Laboratory at Kirtland Air Force Base in New Mexico. He graduated summa cum laude from Linfield College in McMinnville, Ore. with a bachelor of arts in physics in 1974, received a master of arts from the University of California at Berkeley in 1975 and received his Ph.D. in geophysics from the University of California at Berkeley in 1979 after completing a thesis titled Investigation of Seismic Sources by the Linear Inversion of Seismograms.

SMU faculty previously named as AAAS Fellows are James Quick, volcanologist and research dean, who was named a Fellow in 2013; environmental biochemistry scholar Paul W. Ludden, SMU provost and vice president for academic affairs and a professor in the Department of Biological Sciences, who was named a Fellow in 2003; anthropologist David J. Meltzer, Henderson-Morrison Professor of Prehistory in the Department of Anthropology who was named a Fellow in 1998; and James E. Brooks, provost emeritus and professor emeritus in the Roy M. Huffington Department of Earth Sciences, who was named a Fellow in 1966.

The AAAS Fellows program began in 1874. AAAS members may be considered for the rank of fellow if nominated by the steering group of their respective sections, by three fellows, or by the association’s chief executive officer. Each steering group then reviews the nominations of individuals within its respective section and forwards a final list to the AAAS Council, which votes on the final list of fellows.

The Council is the policy making body of the AAAS, chaired by the president, and consisting of the members of the board of directors, the retiring section chairs, delegates from each electorate and each regional division, and two delegates from the National Association of Academies of Science. — Kimberly Cobb

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Zimbabwe Star: Comet not behind mass extinction at Ice Age end: Study

Meltzer, comet, Ice Age, SMU

The Zimbabwe Star news outlet has covered the research of SMU archaeologist David J. Meltzer with the article “Comet not behind mass extinction at Ice Age end: Study.”

A member of the National Academy of Sciences, Meltzer researches the origins, antiquity, and adaptations of the first Americans who colonized the North American continent at the end of the Ice Age. He focuses on how these hunter-gatherers met the challenges of moving across and adapting to the vast, ecologically diverse landscape of Late Glacial North America during a time of significant climate change.

The Zimbabwe Star, from the IANS news service, highlights Meltzer’s latest study to show that a comet, or any other kind of extraterrestrial impact, was not responsible for sudden climate change at the end of the Ice Age 12,800 years ago. Proponents of the comet-impact theory have pointed to sedimentary deposits that they say prove that an object from outer space hit the Earth, extinguishing the Clovis culture and causing the mass extinction of many animals.

Read the full story.

EXCERPT:

Zimbabwe Star (IANS)
Archaeologists have debunked the cosmic-impact theory that a comet sparked climate change at the end of the Ice Age, causing mass animal extinction.

According to the study, led by archaeologist David Meltzer from Southern Methodist University in Dallas, Texas, nearly all sediment layers purported to be from the Ice Age at 29 sites in North America and on three other continents are actually either much younger or much older.

Meltzer and his co-authors found that only three of 29 sites commonly referenced to support the cosmic-impact theory actually date to the window of time for the Ice Age.

“The supposed impact markers are undated or significantly older or younger than 12,800 years ago. Either there were many more impacts than supposed, including one as recently as five centuries ago, or, far more likely, these are not extraterrestrial impact markers,” Meltzer noted.

Scientists agree that the brief episode at the end of the Ice Age – officially known as the Younger Dryas for a flower that flourished at that time – sparked widespread cooling of the earth 12,800 years ago and that this cool period lasted for 1,000 years.

But theories about the cause of this abrupt climate change are numerous.

They range from changes in ocean circulation patterns caused by glacial meltwater entering the ocean to the cosmic-impact theory.

Meltzer and his colleagues sorted the 29 sites by the availability of radiometric or numeric ages and then the type of age control, if available, and whether the age control is secure.

Read the full story.

Follow SMUResearch.com on Twitter.

For more information, www.smuresearch.com.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information see www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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Daily Mail: A comet impact DIDN’T spark climate change and trigger a mass extinction 12,800 years ago, study claims

Daily Mail, Meltzer, SMU, comet, Clovis, mass extinction

The U.K.’s Daily Mail news outlet has covered the research of SMU archaeologist David J. Meltzer with the article “A comet impact DIDN’T spark climate change and trigger a mass extinction 12,800 years ago, study claims.”

A member of the National Academy of Sciences, Meltzer researches the origins, antiquity, and adaptations of the first Americans who colonized the North American continent at the end of the Ice Age. He focuses on how these hunter-gatherers met the challenges of moving across and adapting to the vast, ecologically diverse landscape of Late Glacial North America during a time of significant climate change.

The Daily Mail piece by Jonathan O’Callaghn highlights Meltzer’s latest study to show that a comet, or any other kind of extraterrestrial impact, was not responsible for sudden climate change at the end of the Ice Age 12,800 years ago. Proponents of the comet-impact theory have pointed to sedimentary deposits that they say prove that an object from outer space hit the Earth, extinguishing the Clovis culture and causing the mass extinction of many animals.

Read the full story.

EXCERPT:

By Jonathan O’Callaghan
Daily Mail

It has long been though that a comet struck Earth 12,800 years ago, bringing an end to the Ice Age.

This event was thought to have not only sparked climate change, but also killed America’s earliest people and caused a mass animal extinction.

But a new study suggests this comet theory is false, as most supposed impact indicators at 29 sites are too old or too young to be remnants of an ancient comet.

Controversy over what sparked the Younger Dryas, a brief return to near glacial conditions at the end of the Ice Age, includes a theory that it was caused by a comet hitting the Earth.

As proof, proponents point to sediments containing deposits they believe could result only from a cosmic impact.

Now a new study disproves that theory, said archaeologist David Meltzer of the Southern Methodist University in Dallas.

Meltzer is lead author on the study and an expert in the Clovis culture, the peoples who lived in North America at the end of the Ice Age.

His research team found that nearly all sediment layers purported to be from the Ice Age at 29 sites in North America and on three other continents are actually either much younger or much older.

Scientists agree that the brief episode at the end of the Ice Age – officially known as the Younger Dryas after a flower that flourished at that time – sparked widespread cooling of the Earth 12,800 years ago and that this cool period lasted for 1,000 years.

But theories about the cause of this abrupt climate change are numerous; they range from changes in ocean circulation patterns caused by glacial meltwater entering the ocean to the cosmic-impact theory.

The cosmic-impact theory is said to be supported by the presence of geological indicators that are extraterrestrial in origin.

However a review of the dating of the sediments at the 29 sites reported to have such indicators proves the cosmic-impact theory false, said Meltzer.

Meltzer and his co-authors found that only three of 29 sites commonly referenced to support the cosmic-impact theory actually date to the window of time for the Ice Age.

Read the full story.

Follow SMUResearch.com on Twitter.

For more information, www.smuresearch.com.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information see www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.