In a recent research article published in the journal Molecular Biology
and Evolution, a team headed by Silvia Guimaraes of the University of Florence
documents how the Tuscans of the Middle Ages preserved Etruscan bloodlines
while the contemporary inhabitants of the Italian state of Tuscany seem to
have little or no connection with those mysterious antecedents from the Bronze
Age. It is an example of discontinuity in the mitochondrial DNA record. The
paper is titled "Genealogical
Discontinuities among Etruscan, Medieval and Contemporary Tuscans" (published
online on July 1, 2009: you must have a subscription or pay to read the full
text). The authors are on sure ground with their findings since they had access
to ancient, medieval and modern DNA for comparisons.
It is often assumed that whoever lives in a place belongs to a population
whose ancestors settled there thousands of years ago, and who created a sort
of genetic bedrock beneath the present-day DNA landscape. The Italian study,
however, disproves the applicability of this theory in a country famous for
suffering many invasions by outsiders but enduring and retaining its native
population structure and composition. It was to be expected that the same mitochondrial
lineages would be present today that were common in Italy thousands of years
ago. Instead, some of them, selectively, just died out over time.
A similar situation was revealed in 2005 with the classification of mitochondrial
DNA in 24 Neolithic skeletons from Germany, Austria and Hungary. One-fourth
belonged to haplogroup G, a rather rare type today. In fact, today's Central
Europeans have a 150-times lower frequency (0.2%) of this mtDNA lineage. The
inference is that sometime between 7,500 years ago and the present day, large-scale
population replacement or genetic influx took place in Europe. Today, it is
haplogroup H that enjoys dominance. (The study is "Ancient
DNA from the First European Farmers in 7500-Year-Old Neolithic Sites,"
by Wolfgang Haak et al., Science 11 310/5750: 1016-18.)
Cases of such discontinuities could be multiplied tenfold or more, especially
in the New World. Haplogroup M, a common East Asian lineage, was found in the
skeletal remains of two Paleo-Indians about 5,000 years old at the aptly named
China Lake in British Columbia, although the message was lost on its discoverers
(see R. S. Malhi et al. in Journal of Archaeological Science 20:1-7).
A study by Pääbo et al. in 1988 proposed the existence of a previously
unknown founding lineage on the basis of mitochondrial DNA extracted from a
rare specimen of 7,000-year-old human brain matter in Florida. This discovery
was almost immediately dismissed as "of no importance."
An analysis of the bone remains of 25 pre-Columbian Mayas by Gonzalez-Oliver's
group produced one type of mitochondrial DNA that could not even be classified.
The Brazilian geneticist Salzano has remarked that of the 338 ancient cases
investigated to date over two-thirds could not be assigned to the conventional
six "Amerindian" haplogroups. Researchers found that among the remote
Cayapa Indians of Ecuador, one-fifth of genetic variation was "other."
The Etruscan study shows that a whole population can turn over in a few centuries.
It doesn't take thousands of years. If this is true, as it seems to be, then
the story of the peopling of the Americas has many unwritten chapters. The revised
standard version propagated in textbooks and anthropology departments is simplistic
and reductive.
Egyptian, Greek, Phoenician and Hebrew Origins of Cherokee?
Donald N. Yates
submitted August 31, 2009
ABSTRACT. A sample of 52 individuals who purchased mitochondrial DNA
testing to determine their female lineage was assembled after the fact from
the customer files of DNA Consultants. All claim matrilineal descent from a
Native American woman, usually named as Cherokee. The main criterion for inclusion
in the study is that test subjects must have obtained results not placing them
in the standard Native American haplogroups A, B, C or D. Hence the use of the
word "anomalous" in the title of a paper prepared by chief investigator
Donald N. Yates, "Anomalous Mitochondrial DNA Lineages in the Cherokee."
Most subjects reveal haplotypes that are unmatched anywhere else except among
other participants, and there proves to be a high degree of interrelatedness
and common ancestral lines. Haplogroup T emerges as the largest lineage, followed
by U, X, J and H. Similar proportions of these haplogroups are noted in the
populations of Egypt, Israel and other parts of the East Mediterranean (see
below).
The Cherokee and Admixture. According to a 2007 report from the U.S.
Census Bureau, the Cherokee are the largest tribal group today, with a population
of 331,000 or 15% of all American Indians. Despite their numbers, though, the
Cherokee have had few DNA studies conducted on them. I know of only three reports
on Cherokee mitochondrial DNA. A total of 60 subjects are involved, all from
Oklahoma. Possibly the reason the Cherokee are not recruited for more studies,
I would suggest, stems from their being perceived as admixed in comparison with
other Indians. Accordingly, they are deemed less worthy of study.
In the past, whenever a geneticist or anthropologist conducting a study of
Native Americans has encountered an anomalous haplogroup, that is, a lineage
that does not belong to one of the five generally accepted American Indian mitochondrial
DNA haplogroups A, B, C, D and X, it has been rejected as an example of admixture
and not included in the survey results. This is true of the two examples of
H and one of J reported by Cherokee descendants by Schurr (2000:253). Schurr
takes these exceptions to prove the rule and regards them as instances of European
admixture. The governing logic of population geneticists seems to go as follows:
Lineage A, B, C, D and X are American Indian.
Therefore, all American Indians are lineage A, B, C, D and X.
The fallacy in such reasoning is apparent. It could be restated as: "All
men are two-legged creatures; therefore since the skeleton we dug up has two
legs, it is human." It might be a kangaroo.
"The geneticists always seem to cry 'post-Columbian admixture,'" says
Stephen C. Jett, a geographer at the University of California at Davis, "but
fail to take into account that there are no plausible post-Columbian sources
for the particular genetic mix encountered."
"Anomalous Mitochondrial DNA Lineages in the Cherokee"
concentrates on the "kangaroos"- documented or self-identifying Cherokee
descendants whose haplotypes do not fit the current orthodoxy in American Indian
population genetics. Here are some highlights, organized by haplogroup.
Haplogroup H. Although this quintessentially European haplogroup would
seem to be the most likely suspect if admixture were responsible for the anomalous
haplogroups, there are but four cases of it.
Haplogroup X. Haplogroup X is a latecomer to the
"pantheon" of Native American haplogroups. Its relative absence in
Mongolia and Siberia and a recently proven center of diffusion in Lebanon and
Israel (Brown et al. 1998, Malhi and Smith 2002; Smith et al. 1999; Reidla 2003;
Shlush et al. 2009) pose problems for the standard account of the peopling of
the Americas. DNA Consultants Cherokee-descended customers include seven instances
of haplogroup X. David E. Lewis (whose Cherokee name is Wayauwetsi) traces his
unmatched X haplotype back to Seyinus, a Cherokee woman of the Wolf Clan born
on or near the Qualla Boundary in North Carolina in 1862. Two cases represent
descendants (unknown to each other, incidentally) of the Cherokee woman called
Polly who was the namesake for the Qualla reservation (the sound p lacking in
the Cherokee language and being rendered with qu).
Haplogroup J. Two other cases, both J's, are related to Polly, tracing
their lines back to Betsy Walker, a Cherokee woman born about 1720 in Soco (One-Town).
A descendant was the wife or paramour of Col. Will Thomas, the first chief and
founder of the Eastern Band of Cherokee Indians located today on the Qualla
Boundary. Views about J are still evolving, but it seems to have originated
in present-day Lebanon approximately 10,000 years before present. It is a major
Jewish female lineage (Thomas 2002).
Haplogroup U has never been reported in American Indians to my knowledge.
In our sample it covers 13 cases or 25% of the total, second in frequency only
to haplogroup T. One of the U's is Mary M. Garrabrant-Brower. She belongs to
U5a1a* (all U5a1a not matched or assigned) but has no close matches anywhere.
Her great-grandmother was Clarissa Green of the Cherokee Wolf Clan, born 1846.
Mary's mother Mary M. Lounsbury maintained the Cherokee language and rituals.
One of the cases of U2e* is my own. This line evidently arose from a Jewish
Indian trader and a Cherokee woman. My fifth-great-grandmother was born about
1790 on the northern Georgia and southwestern North Carolina frontier and had
a relationship with a trader named Enoch Jordan. The trader's male line descendants
from his white family in North Carolina possess Y chromosomal J, a common Jewish
type. Some Jordans, in fact, bear the Cohen Modal Haplotype that has been suggested
to be the genetic signature of Old Testament priests (Thomas et al. 1998). Enoch
Jordan was born about 1768 in Scotland of forbears from Russia or the Ukraine.
My mother, Bessie Cooper, was a double descendant of Cherokee chief Black Fox
and was born on Sand Mountain in northeastern Alabama near Black Fox's former
seat at Creek Path (and who was Paint Clan). All U2e* cases appear to have in
common the fact that there are underlying Melungeon, Cherokee and Jewish connections.
Haplogroup T. "Tara," as she was named by Brian Sykes, is
believed to have originated in Mesopotamia approximately 10,000 to 12,000 years
ago and to have moved northwards through the Caucasus and westwards from Anatolia
into Europe. The closer one goes to its origin in the Fertile Crescent the more
likely T is to be found in higher frequencies. The haplogroup includes slightly
fewer than 10% of modern Europeans, but accounts for 28% of people in the DNA
Consultants study. The great-great-grandmother of Linda Burckhalter was Sully
Firebush, the daughter of a Cherokee chief who married Solomon Sutton, the stowaway
son of a London merchant, in what would seem to be another variation of the "Jewish
trader marries chief's daughter"
pattern. Three T1*'s are perfectly matching individuals completely unknown
to one another before testing who are clearly descended from the same woman.
Two of them claim Melungeon ancestry.
The many interrelationships noted above reinforce the conclusion that this
is a faithful cross-section of a population. No such mix could have resulted
from post-1492 European gene flow into the Cherokee Nation. So where do our
non-European, non-Indian-appearing elements come from? The level of haplogroup
T in the Cherokee (26.9%) approximates the percentage for Egypt (25%), one of
the only lands where T attains a major position among the various mitochondrial
lineages. In Egypt, T is three times what it is in Europe. Haplogroup U in our
sample is about the same as the Middle East in general. Its frequency is similar
to that of Turkey and Greece. J has a frequency not unlike Europe (a little
less than 10%). The only other place on earth where X is found at an elevated
level apart from other American Indian groups like the Ojibwe is among the Druze
in the Hills of Galilee in northern Israel and Lebanon. The work of Shlush et
al. (2009) demonstrates that this region was in fact the center of the worldwide
diffusion of haplogroup X.
Phoenicians. On the Y chromosome side of Shlush et al.'s study, male
haplogroup K was found to have a relatively high frequency of 11% in the Galilee
region (2008:2). K (renamed T in the revised YCC nomenclature) has long been
suspected to be the genetic signature of the Phoenicians. A TV show by National
Geographic appeared about a year ago titled Who Were the Phoenicians?, in which
Spencer Wells of the National Genographic Project, unveiled this theory. Without
a doubt it was the Phoenicians, whose name among themselves was Cana'ni or KHNAI
'Canaanites', not Phoenikoi 'red paint people' (Aubet 2001:9-12; cf. Oxford
Classical Dictionary s.v. "Phoenicians" ), who are referenced by James
Adair when he observes that "several old American towns are called Kan?ai," and
suggests that the Conoy Indians of Pennsylvania and Maryland were Canaanites
and their tribal name a corruption of the word Canaan. The Conoy Indians are
the same Indians William Penn around 1700 described as resembling Italians,
Jews and Greeks. By about 1735 they had dwindled to a "remnant of a nation,
or subdivided tribe, of Indians," according to Adair (1930:56, 67, 68).
One of the oldest Cherokee clans is called Red Paint Clan (Ani-wodi).
So do the two subclades of X and other haplogroups represent Old World and
New World branches diverging from each other as long ago as 30,000 years, or
do the Native American "anomalous" haplotypes come more recently (but
not as late as Columbus) from the same source in the East Mediterranean? The
answer probably depends on how open one is to new evidence and revisionary thinking.
According to Jett, "The splits may have taken place well before transfer,
with one only or both being transferred to a new place and then one dying out
in the home area (and the other in the new area, if both were transferred)."
The distinction, at any rate, is irrelevant to the Cherokee who exhibit these
not-so-rare haplogroups, although to those denied authenticity on the basis
of anthropologists' hardened ideas about the genetic composition of American
Indians it is welcome vindication either way.
References
1. Adair, James (1930). Adair's History of the American Indians, ed. by
Samuel Cole Williams, originally published London, 1775. Johnson City: Watauga.
2. Richards, Martin et al. (2000). "Tracing
European Founder Lineages in the Near Eastern mtDNA Pool." American
Journal of Human Genetics 67:1251-76. Supplementary Data. URL: http://www.stats.gla.ac.uk/~vincent/founder2000/index.html.
3. Schurr, Theodore G. (2000). "Mitochondrial DNA and the Peopling of the
New World," American Scientist 88:246-53.
4. Shlush, L. I. et al. (2009) "The
Druze: A Population Genetic Refugium of the Near East." PLoS ONE 3(5):
e2105. URL: http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2324201
When Objects Become Subjects
(and Talk Back to Researchers)
Review
Paul Brodwin, "'Bioethics
in Action' and Human Population Genetics Research"
Population genetics experts who lecture in the groves of academe or trudge
through the jungles of the Amazon are not immune to racist bombshells and political
dynamite. In 1991, Stanford geneticist Luigi Luca Cavalli-Sforza announced a
project to study human genetic diversity. The ponderous monograph that issued
forth in 1994 became as revered as it was unreadable. His History and Geography
of Human Genes posited two main limbs in the human DNA tree, the African
and non-African, with the latter branching off into Europeans (Caucasians) and
Northeast Asians. Included in Northeast Asians were the so-called Amerindians.
Amerinds were closest in genetic distance to Northern Turkic, Chukchi and other
Arctic and Mongolian peoples.
Little did Cavalli-Sforza and his team expect to encounter any opposition
to their benign project, much less withdrawal of funding by the U.S. government
and United Nations, but this is exactly what happened. The genial professor
was surprised one day by a letter from a Canadian human rights group called
the Rural Advancement Foundation International. The group demanded he stop his
work immediately. It accused the Human Genome Diversity Project of biopiracy,
stealing DNA from unsuspecting indigenous people and mining it for valuable
information pharmaceutical companies could use to make drugs Third World people
could not afford.
Paul Brodwin's article published in 2005 in the journal Culture, Medicine
and Psychiatry (29:145-78) reviewed this controversy, which had some positive
repercussions in forcing researchers to rethink colonialist attitudes toward
their subjects. But in the second case of "bioethics in action," Brodwin
painted a much more ambiguous picture. It concerned the use of genetics by
the ethnic group called Melungeons of Tennessee and Virginia to prove identity
claims and press their ideas of special entitlements.
In the section of the article titled "The Reinvention of Melungeon Ethnicity," Brodwin
chronicles the conflict between scientific genetics and the Melungeons' demand
for collective recognition. Complicating this issue is that the academics were
by no means certain among themselves about who or what Melungeons were from
an anthropological perspective. A rancorous standoff between Virginia DeMarce
and N. Brent Kennedy was matched by the tendentious nature of the Melungeons'
own theories and assertions about themselves. Was there even such a thing as
Melungeons or were they simply genealogical ghosts and lurid creations of popular
journalism? Did they truly have some black and American Indian ancestry? Was
the title only to apply to people in and around Newmans Ridge in Hancock County,
Tennessee, or be extended to a wide range of persons of mixed ancestry like
the Carolina Turks and Lumbee Indians? If the Melungeons went back before the
arrival of Europeans, could they seek legal recognition as an indigenous American
Indian tribe?
Questions abounded and it seemed all of them were murky, emotionally charged
and political. Unlike the Human Genome Diversity battle, neither party seemed
to gain any advantages in the free-for-all. There were apparently no lessons
to be learned on either side. At the end of the day, everyone just gave up and
went home, exhausted.
Brodwin obviously sympathizes with the forces of the Academy in all this.
He throws his lot in with the geneticist Kevin Jones, who found
"he did not control the goals of research or the interpretation of findings."
The Melungeon fracas illustrated "the political and conceptual vulnerabilities
of human population genetics." In my opinion, however, Brodwin missed the
point. Whom do university professors and academic researchers serve, if not
the public? They should rejoice that so many of the great unwashed (even in
the hills and hollers of Tennessee) are engaged by and even interested in their
research. And if they cannot achieve a satisfactory dialogue with their lay
critics, whose fault is that? The debate should continue, not be swept under
the rug of philosophical reflection. Whatever else they might be, Melungeons
are people. As such, they should not be dismissed when they become intractable.
Introducing the DNA Fingerprint Plus
Since the disappearance of DNAPrint and AncestryByDNA from the market in February
the demand for an autosomal test that would tell you whether you had Native
American or other admixture and estimate what mix you had, has been unmet. While
it is doubtful, for many reasons, there will ever be a test that can assign
percentages to ethnicities, DNA Consultants has developed a panel of 18 markers
potentially evident in a person's CODIS profile that have high probabilities
for signaling different ethnic contributions. The Ethnic Panel has been added
to the company's DNA Fingerprint Test in the DNA Fingerprint Plus.
As with all genetic markers, the fact that you do not have a marker does not
mean that you lack that type of heredity, but its presence is a strong indicator
of likelihood that you do possess certain genes. Because we receive one allele
or unit of variation from one parent and one from another, and each parent possesses
two themselves, one person can fail to inherit, say, a Native American marker
but a sibling can have it.
DNA Consultants' chief investigator Dr. Donald Yates made the discoveries
in July that laid the foundation for the new product, which was rolled out in
early September. Like the CODIS test it is based on, the DNA Fingerprint Plus
reflects your total ancestry, not just a male or female line. The 18 Marker
Ethnic Panel costs $50.00 and there is no need to repeat any testing. It uses
the results of your DNA Fingerprint Test.
The markers include checks for Native American, Ashkenazi Jewish, Northern
European, Mediterranean, Sub-Saharan African, Asian and other types of probable
contributions to your overall genetic legacy. They do not tell you how much
of a given ancestry you may have or what line in your genealogy it might come
from.
The way the Panel works is this: Depending on your ethnic mix, your score
on a certain allele may fall near one end or the other on a probability scale.
All these polarizations in the data correspond to major forks in the road of
prehistoric human migrations. They support the conclusions of Oxford geneticist
Stephen Oppenheimer and others that early humans left Africa in one or two migrations
that gave birth to all the ethnic types in the rest of the world, from Australian
Aborigines to Europeans. Native Americans and Europeans are closer, genetically
speaking, than Native Americans are to Asians. One of the markers apparently
reflects a divide between Asian ancestry on the one hand and European/Native
American on the other. It is useful in distinguishing between Asian and Native
American, two ethnicities that have a high degree of shared deep ancestry and
are often otherwise mistaken for each other. Some ethnic markers can be shown
by certain control measures to be a "false positive"
and not indicative of that ancestry at all. They are also listed in the DNA
Fingerprint Plus report.
Question or comment? Email me.
888-806-2588
One of the first of the Jewish markers to be blogged about was Jewish II, characteristic of Ashkenazi Jews. Theodor Herzl, the nineteenth-century Austro-Hungarian Zionist thinker-organizer who helped inspire the founding of the State of Israel, is an example of a famous Ashkenazi Jew. There was another post titled Jewish Marker II Statistical Notes.
commented on 18-Jun-2011 02:08 PM 
Vanessa McAdams-Mahmoud commented on 16-Jan-2012 10:52 AM
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