Quaternary International

This paper examines Iron Age Mongolia during a time when nomadic tribes created the world’s first steppe empire in Inner Asia. These aggregated tribes, known as Xiongnu (3rd century BC to the 2nd century AD), came to define steppe polity construction later used by the Mongol Empire under the reign of Genghis Khan. They moved extensively over the eastern steppe and interacted, both in trade and intermarriage, with peoples from southern Siberia to Xinjiang. However, the Xiongnu as a people are relatively unknown to scholars since they did not possess a written language. This study assesses Xiongnu population history and biological structure by analyzing craniofacial diversity via geometric morphometrics. Twenty-four coordinate cranial landmarks were used to test relationships among groups in the region and infer potential biological origins. The Relethford-Blangero R-matrix method was used to test hypotheses of phenotypic variation resulting from microevolutionary processes. This stud...

Situating Mongolia in the World from Geologic Time to the Present, 2011

Human Genetics, 2020

In an effort to characterize the people who composed the groups known as the Xiongnu, nuclear and whole mitochondrial DNA data were generated from the skeletal remains of 52 individuals excavated from the Tamir Ulaan Khoshuu (TUK) cemetery in Central Mongolia. This burial site, attributed to the Xiongnu period, was used from the first century BC to the first century AD. Kinship analyses were conducted using autosomal and Y-chromosomal DNA markers along with complete sequences of the mitochondrial genome. These analyses suggested close kin relationships between many individuals. Nineteen such individuals composed a large family spanning five generations. Within this family, we determined that a woman was of especially high status; this is a novel insight into the structure and hierarchy of societies from the Xiongnu period. Moreover, our findings confirmed that the Xiongnu had a strongly admixed mitochondrial and Y-chromosome gene pools and revealed a significant western component in the Xiongnu group studied. Using a fine-scale approach (haplotype instead of haplogroup-level information), we propose Scytho-Siberians as ancestors of the Xiongnu and Huns as their descendants.

Bioarchaeology of Ancient East Asia, 2013

International Congress Series, 2003

Genetic analysis of archaeological remains may provide information of prime importance to the understanding of human past history. In order to investigate the history of Mongolian populations, we have analyzed the skeletal remains of 56 specimens excavated from the Egyin Gol necropolis located in northern Mongolia. This burial site is linked to the Xiongnu period, which extended from the 3rd

American Journal of Physical Anthropology, 2010

We analyzed mitochondrial DNA (mtDNA), Y-chromosome single nucleotide polymorphisms (Y-SNP), and autosomal short tandem repeats (STR) of three skeletons found in a 2,000-year-old Xiongnu elite cemetery in Duurlig Nars of Northeast Mongolia. This study is one of the first reports of the detailed genetic analysis of ancient human remains using the three types of genetic markers. The DNA analyses revealed that one subject was an ancient male skeleton with maternal U2e1 and paternal R1a1 haplogroups. This is the first genetic evidence that a male of distinctive Indo-European lineages (R1a1) was present in the Xiongnu of Mongolia. This might indicate an Indo-

American Journal of Physical Anthropology, 2006

In the present study, nuclear (autosomal and Y-chromosome short tandem repeats) and mitochondrial (hypervariable region I) ancient DNA data previously obtained from a 2,300-year-old Xiongnu population of the Egyin Gol Valley (south of Lake Baikal in northern Mongolia) (Keyser-Tracqui et al. 2003 Am. J. Hum. Genet. 73:247–260) were compared with data from two contemporary Mongolian populations: one from the same location (Egyin Gol Valley plus a perimeter of less than 100 km around the valley), and one from the whole of Mongolia. The principal objective of this comparative analysis was to assess the likelihood that genetic continuity exists between ancient and present-day Mongolian populations. Since the ancient Xiongnu sample might have been composed of some of the ancestors of the present-day Yakuts, data from a present-day Yakut population, as well as published data from Turkish populations, were also included in the comparative analysis. The main result of our study was the genetic similarity observed among Mongolian samples from different periods and geographic areas. This result supports the hypothesis that the succession over time of different Turkic and Mongolian tribes in the current territory of Mongolia resulted in cultural rather than genetic exchanges. Furthermore, it appears that the Yakuts probably did not find their origin among the Xiongnu tribes, as we previously hypothesized. Am J Phys Anthropol 131:272–281, 2006. © 2006 Wiley-Liss, Inc.

American Journal of Physical Anthropology, 2004

Numerous Bronze Age cemeteries in the oases surrounding the Täklamakan Desert of the Tarim Basin in the Xinjiang Uyghur Autonomous Region, western China, have yielded both mummified and skeletal human remains. A dearth of local antecedents, coupled with woolen textiles and the apparent Western physical appearance of the population, raised questions as to where these people came from. Two hypotheses have been offered by archaeologists to account for the origins of Bronze Age populations of the Tarim Basin. These are the “steppe hypothesis” and the “Bactrian oasis hypothesis.” Eight craniometric variables from 25 Aeneolithic and Bronze Age samples, comprising 1,353 adults from the Tarim Basin, the Russo-Kazakh steppe, southern China, Central Asia, Iran, and the Indus Valley, are compared to test which, if either, of these hypotheses are supported by the pattern of phenetic affinities possessed by Bronze Age inhabitants of the Tarim Basin. Craniometric differences between samples are compared with Mahalanobis generalized distance (d2), and patterns of phenetic affinity are assessed with two types of cluster analysis (the weighted pair average linkage method and the neighbor-joining method), multidimensional scaling, and principal coordinates analysis. Results obtained by this analysis provide little support for either the steppe hypothesis or the Bactrian oasis hypothesis. Rather, the pattern of phenetic affinities manifested by Bronze Age inhabitants of the Tarim Basin suggests the presence of a population of unknown origin within the Tarim Basin during the early Bronze Age. After 1200 B.C., this population experienced significant gene flow from highland populations of the Pamirs and Ferghana Valley. These highland populations may include those who later became known as the Saka and who may have served as “middlemen” facilitating contacts between East (Tarim Basin, China) and West (Bactria, Uzbekistan) along what later became known as the Great Silk Road. Am J Phys Anthropol, 2003. © 2003 Wiley-Liss, Inc.

Homo-journal of Comparative Human Biology, 2016

ing the Warring States and Han dynasty retained their cultural and genetic Mongolian identity. These data add valuable bioarchaeological information regarding the peopling of northern China during a crucial period of cultural and political change in the Early Bronze Age and Iron Age.

Journal of Siberian Federal University. Humanities & Social Sciences, 2024

In this paper, we present the results of the craniometric study of Afanasievo and Chemurchek (Khemtseg or Hemtseg) archaeological cultures from the territory of Mongolia. Male crania of the Afanasievo culture from the central regions of Mongolia are characterized by a proto-European complex of traits of Eastern European origin. Among the groups of the Afanasievo culture of south Siberia, they are most similar morphologically to the series of crania from the transboundary region of the southern Altai. For the first time, we analyzed the craniological materials of the Chemurchek culture from the Early Bronze Age in Western Mongolia. Our study revealed a significant morphological difference between the Chemurchek culture population and the earlier Afanasievo culture population of South Siberia and Central Asia. From an anthropological perspective, the Chemurchek culture population is characterized by Asian features. They share close similarities with the populations from the northern regions of Mongolia during the Neolithic period. Additionally, they also bear resemblance to the populations of Serovo and Glazkovo cultures from the Circumbaikal region during the Neolithic-Bronze Age periods. We have noticed a certain similarity in the physical characteristics of early Bronze Age populations from south Siberia and central Asia. This similarity may indicate a common ancestral background among these populations. The range of physical diversity among ancient populations in Mongolia encompasses the entire spectrum of variation seen in the northern part of Eurasia during the Neolithic and early Bronze Ages, concerning the main ethnic and genetic lineages of humankind.