Your search keyword '"Zwyns N"' showing total 22 results

1. The Initial Upper Paleolithic of Kamenka site, Zabaikal region (Siberia): A closer look at the blade technology

Author

Zwyns, N. and Lbova, L.V.

Published

2019

2. Spatial Structures of the Initial/Early Upper Paleolithic at Tolbor-21, Northern Mongolia

Author

Marchenko, D. V., primary, Khatsenovich, A. M., additional, Bolorbat, T., additional, Gunchinsuren, B., additional, Zwyns, N., additional, Paine, C., additional, and Rybin, E. P., additional

Published

2023

3. Symbolic innovation at the onset of the Upper Paleolithic in Eurasia shown by the personal ornaments from Tolbor-21 (Mongolia)

Author

Rigaud, S., Rybin, E., Khatsenovich, A., Queffelec, A., Paine, C., Gunchinsuren, B., Talamo, S., https://orcid.org/0000-0002-2406-3132, Marchenko, D., Bolorbat, T., Odsuren, D., Gillam, J., Izuho, M., Fedorchenko, A., Odgerel, D., Shelepaev, R., Hublin, J., https://orcid.org/0000-0001-6283-8114, Zwyns, N., and https://orcid.org/0000-0002-0092-740X

Abstract

Figurative depictions in art first occur ca. 50,000 years ago in Europe, Africa, and Southeast Asia. Considered by most as an advanced form of symbolic behavior, they are restricted to our species. Here, we report a piece of ornament interpreted as a phallus-like representation. It was found in a 42,000 ca.-year-old Upper Paleolithic archaeological layer at the open-air archaeological site of Tolbor-21, in Mongolia. Mineralogical, microscopic, and rugosimetric analyses points toward the allochthonous origin of the pendant and a complex functional history. Three-dimensional phallic pendants are unknown in the Paleolithic record, and this discovery predates the earliest known sexed anthropomorphic representation. It attests that hunter-gatherer communities used sex anatomical attributes as symbols at a very early stage of their dispersal in the region. The pendant was produced during a period that overlaps with age estimates for early introgression events between Homo sapiens and Denisovans, and in a region where such encounters are plausible.

Published

2023

4. Burin-core technology and laminar reduction sequences in the initial Upper Paleolithic from Kara-Bom (Gorny-Altai, Siberia)

Author

Zwyns, N., Rybin, E.P., Hublin, J.-J., and Derevianko, A.P.

Published

2012

5. The Aurignacian in the Zagros region: new research at Yafteh Cave, Lorestan, Iran

Author

Otte, M., Biglari, F., Flas, D., Shidrang, S., Zwyns, N., Mashkour, M., Naderi, R., Mohaseb, A., Hashemi, N., Darvish, J., and Radu, V.

Subjects

Antiquities -- Discovery and exploration -- Research, Paleoanthropology -- Research -- Discovery and exploration, Anthropology/archeology/folklore, Discovery and exploration, Research

Abstract

The Yafteh cave in Iran has an intact Aurignacian sequence over 2m deep. First explored by Frank Hole and Kent Flannery in the 1960s, its strata and assemblage are here re-evaluated at first hand by a new international team. The authors show that the assemblage is genuine Aurignacian and dates back to about 35.5K uncal BP. They propose it as emerging locally and even as providing a culture of origin for modern humans in West Asia and Europe. Keywords: Palaeolithic, Aurignacian, Europe, Iran, Zagros, modern humans, Introduction In Europe, modern humans and the Aurignacian culture appeared, abruptly, at around 36 500 BP (Verpoorte 2005). The absence of local regional traces suggests an external origin for the [...]

Published

2007

6. The Northern Route for Human dispersal in Central and Northeast Asia: New evidence from the site of Tolbor-16, Mongolia

Author

Zwyns, N, Paine, CH, Tsedendorj, B, Talamo, S, Fitzsimmons, KE, Gantumur, A, Guunii, L, Davakhuu, O, Flas, D, Dogandzic, T, Doerschner, N, Welker, F, Gillam, JC, Noyer, JB, Bakhtiary, RS, Allshouse, AF, Smith, KN, Khatsenovich, AM, Rybin, EP, Byambaa, G, Hublin, J-J, Zwyns, N, Paine, CH, Tsedendorj, B, Talamo, S, Fitzsimmons, KE, Gantumur, A, Guunii, L, Davakhuu, O, Flas, D, Dogandzic, T, Doerschner, N, Welker, F, Gillam, JC, Noyer, JB, Bakhtiary, RS, Allshouse, AF, Smith, KN, Khatsenovich, AM, Rybin, EP, Byambaa, G, and Hublin, J-J

Abstract

The fossil record suggests that at least two major human dispersals occurred across the Eurasian steppe during the Late Pleistocene. Neanderthals and Modern Humans moved eastward into Central Asia, a region intermittently occupied by the enigmatic Denisovans. Genetic data indicates that the Denisovans interbred with Neanderthals near the Altai Mountains (South Siberia) but where and when they met H. sapiens is yet to be determined. Here we present archaeological evidence that document the timing and environmental context of a third long-distance population movement in Central Asia, during a temperate climatic event around 45,000 years ago. The early occurrence of the Initial Upper Palaeolithic, a techno-complex whose sudden appearance coincides with the first occurrence of H. sapiens in the Eurasian steppes, establishes an essential archaeological link between the Siberian Altai and Northwestern China . Such connection between regions provides empirical ground to discuss contacts between local and exogenous populations in Central and Northeast Asia during the Late Pleistocene.

Published

2019

7. The complete genome sequence of a 45,000 year old modern human from Western Siberia

Author

Fu, Q., Li, H., Moorjani, P., Jay, F., Slepchenko, S., Bondarev, A.A., Johnson, P.L.F., Petri, A.A., Prüfer, K., de Filippo, C., Meyer, M., Zwyns, N., Salazar García, Domingo Carlos, Kuzmin, Y.V., Keates, S.G., Kosintesev, P.A., Razhev, D.I., Richards, Michael P., Peristov, N.V., Lachmann, M., Douka, K., Higham, T.F.G., Slatkin, M., Hublin, J.J., Reich, D., Kelso, J., Viola, T.B., and Pääbo, S.

Subjects

Prehistòria

Abstract

Wepresent the high-quality genome sequence of a 45,000-year-old modern human male from Siberia. This individual derives from a population that lived before¿or simultaneously with¿the separation of the populations in western and eastern Eurasia and carries a similar amount of Neanderthal ancestry as present-day Eurasians. However, the genomic segments of Neanderthal ancestry are substantially longer than those observed in present-day individuals, indicating that Neanderthal gene flow into the ancestors of this individual occurred 7,000¿13,000 years before he lived. We estimate an autosomal mutation rate of 0.4 x 10-9 to 0.6x10-9 per site per year, a Y chromosomal mutation rate of 0.7x10-9 to 0.9x10-9 per site per year based on the additional substitutions that have occurred in present-day non- Africans compared to this genome, and a mitochondrial mutation rate of 1.8x10-8 to 3.2x10-8 per site per year based on the age of the bone.

Published

2014

8. Laminar technology and the onset of the Upper Paleolithic in the Altai, Siberia

Author

Zwyns, N., Hublin, J.J., McPherron, S.P., and Leiden University

Subjects

Blades, Modern humans, Upper Paleolithic, Neandertals, Northeast Asia, Altai, Denisovans, Lithic technology, Bladelets

Abstract

The Altai region has yielded a cluster of Middle and Upper Paleolithicstratified sites that have been recently excavated using a multidisciplinaryapproach. These sequences provide key evidence illustrating changes inmaterial culture corresponding to the transition from the Middle to theUpper Paleolithic. In Europe, this phenomenon is associated with thereplacement of Neandertals by modern humans. Based on this archeologicaldata set, local scholars have put forward a scenario of regional transitionto explain the emergence cultural and biological modernity. Recentdevelopments in ancient DNA studies, however, have complicated thismodel by showing that Neandertals were present in the Altai Mountainsuntil forty thousand years ago. In addition, a previously unknown genomehas been sequenced, demonstrating the presence of another type ofhominin in the region, the so-called ‘Denisovans’. The presence ofanatomically modern humans is confirmed by at least thirty thousandyears ago in Siberia. Based on a taphonomic and technological analysis ofthe Kara-Bom and Ust-Karakol laminar assemblages, the study presentedin this volume takes a close look at the early development of Upper Paleolithictechnical traditions in the Altai. The alternative chrono-culturalmodel presented as an attempt to conciliate archeological, environmental,genetic and paleontological data has substantial implications for ourunderstanding of the Late Pleistocene peopling of Asia.

Published

2012

9. The Northern Route for Human dispersal in Central and Northeast Asia: New evidence from the site of Tolbor-16, Mongolia

Author

Odsuren Davakhuu, Cleantha H. Paine, Gunchinsuren Byambaa, E.P. Rybin, Kathryn E. Fitzsimmons, Roshanne S. Bakhtiary, Lkhundev Guunii, Tamara Dogandžić, Damien Flas, Kevin N. Smith, Frido Welker, Nicolas Zwyns, Jean-Jacques Hublin, Aurora F. Allshouse, Sahra Talamo, Arina M. Khatsenovich, Angaragdulguun Gantumur, J. Christopher Gillam, Nina Doerschner, Joshua B. Noyer, Bolorbat Tsedendorj, Fitzsimmons, Kathryn E [0000-0002-9337-0793], Flas, Damien [0000-0002-9159-8030], Apollo - University of Cambridge Repository, Zwyns N., Paine C.H., Tsedendorj B., Talamo S., Fitzsimmons K.E., Gantumur A., Guunii L., Davakhuu O., Flas D., Dogandzic T., Doerschner N., Welker F., Gillam J.C., Noyer J.B., Bakhtiary R.S., Allshouse A.F., Smith K.N., Khatsenovich A.M., Rybin E.P., Byambaa G., and Hublin J.-J.

Subjects

0301 basic medicine, Asia, Pleistocene, Steppe, Human Migration, Population, lcsh:Medicine, Radiocarbon dating, Mongolia, Human Dispersal in Asia, Context (language use), Article, 03 medical and health sciences, 0302 clinical medicine, Temperate climate, Animals, Humans, education, China, lcsh:Science, Neanderthals, geography, education.field_of_study, Multidisciplinary, geography.geographical_feature_category, Human migration, business.industry, Fossils, lcsh:R, Mongolia, Archaeology, 030104 developmental biology, Biological dispersal, lcsh:Q, business, 030217 neurology & neurosurgery

Abstract

The fossil record suggests that at least two major human dispersals occurred across the Eurasian steppe during the Late Pleistocene. Neanderthals and Modern Humans moved eastward into Central Asia, a region intermittently occupied by the enigmatic Denisovans. Genetic data indicates that the Denisovans interbred with Neanderthals near the Altai Mountains (South Siberia) but where and when they met H. sapiens is yet to be determined. Here we present archaeological evidence that document the timing and environmental context of a third long-distance population movement in Central Asia, during a temperate climatic event around 45,000 years ago. The early occurrence of the Initial Upper Palaeolithic, a techno-complex whose sudden appearance coincides with the first occurrence of H. sapiens in the Eurasian steppes, establishes an essential archaeological link between the Siberian Altai and Northwestern China . Such connection between regions provides empirical ground to discuss contacts between local and exogenous populations in Central and Northeast Asia during the Late Pleistocene.

Published

2019

10. An Initial Upper Palaeolithic attribution is not empirically supported at Shiyu, northern China.

Author

Carmignani L, Djakovic I, Zhang P, Teyssandier N, Zwyns N, and Soressi M

Published

2024

11. Analyzing blank cutting edge efficiency associated with the adoption of microblade technology: A case study from Tolbor-17, Mongolia.

Author

Johnson CL, Bolorbat T, Grote MN, Paine CH, Lkhundev G, Odsuren D, Izuho M, Gunchinsuren B, and Zwyns N

Subjects

Mongolia, Fossils, Humans, History, Ancient, Archaeology methods, Technology

Abstract

The phenomenon of lithic miniaturization during the Late Pleistocene at times coincided with increased artifact standardization and cutting edge efficiency-likely reflecting the use of small, sharp artifacts as interchangeable inserts for composite cutting tools and hunting weapons. During Marine Isotope Stage 2, Upper Paleolithic toolmakers in northern East Asia specifically used pressure techniques to make small, highly standardized lithic artifacts called microblades. However, little is currently known about how microblades affected the cutting edge efficiency of the toolkits they were a part of. We applied three methods of analyzing cutting edge efficiency to two Upper Paleolithic assemblages recently excavated from Tolbor-17, Mongolia, that document the periods before and after the introduction of microblade technology to the Tolbor Valley. A model incorporating allometric relationships between blank cutting edge length and mass suggests no difference in efficiency between the two periods, while two more conventional approaches both indicate a significant increase. The potential for improved cutting edge efficiency is only observed when the microblade sample is artificially inflated via simulation. Our results highlight challenges related to detecting and interpreting archaeological differences in cutting edge efficiency at the assemblage level., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Johnson et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

12. Symbolic innovation at the onset of the Upper Paleolithic in Eurasia shown by the personal ornaments from Tolbor-21 (Mongolia).

Author

Rigaud S, Rybin EP, Khatsenovich AM, Queffelec A, Paine CH, Gunchinsuren B, Talamo S, Marchenko DV, Bolorbat T, Odsuren D, Gillam JC, Izuho M, Fedorchenko AY, Odgerel D, Shelepaev R, Hublin JJ, and Zwyns N

Subjects

Humans, Infant, Newborn, Mongolia, Africa, Europe, Archaeology

Abstract

Figurative depictions in art first occur ca. 50,000 years ago in Europe, Africa, and Southeast Asia. Considered by most as an advanced form of symbolic behavior, they are restricted to our species. Here, we report a piece of ornament interpreted as a phallus-like representation. It was found in a 42,000 ca.-year-old Upper Paleolithic archaeological layer at the open-air archaeological site of Tolbor-21, in Mongolia. Mineralogical, microscopic, and rugosimetric analyses points toward the allochthonous origin of the pendant and a complex functional history. Three-dimensional phallic pendants are unknown in the Paleolithic record, and this discovery predates the earliest known sexed anthropomorphic representation. It attests that hunter-gatherer communities used sex anatomical attributes as symbols at a very early stage of their dispersal in the region. The pendant was produced during a period that overlaps with age estimates for early introgression events between Homo sapiens and Denisovans, and in a region where such encounters are plausible., (© 2023. The Author(s).)

Published

2023

13. The peopling of the hinterland of the Tibetan Plateau during the late MIS 3.

Author

Zhang P, Zhang X, Li L, He W, Dawa, Jin Y, Ge J, Zwyns N, Wang S, and Gao X

Subjects

Tibet, Humans, Population Growth

Abstract

Competing Interests: Conflict of interest The authors declare that they have no conflict of interest.

Published

2022

14. After the blades: The late MIS3 flake-based technology at Shuidonggou Locality 2, North China.

Author

Zhang P, Zwyns N, Peng F, Lin SC, Johnson CL, Guo J, Wang H, and Gao X

Subjects

Animals, Artifacts, China, Asia, Eastern, Fossils, Technology, Archaeology, Hominidae

Abstract

Contrasting with the predominance of blade-based assemblages in the Eurasian Upper Paleolithic, the large-scale persistence of a core-and-flake technology remains one of the defining features of Late Pleistocene lithic technology in East Asia. In North China, Shuidonggou is an exceptional site where both technologies are documented, therefore, it is an important archaeological sequence to understand regional technological evolution during the Marine Isotopic Stage 3. Blade technology first occurred at Shuidonggou Locality 1 and 2 around 41 ka cal BP while core-and-flake assemblages were widespread in North China. However, systematic technological studies on assemblages postdating 34 ka cal BP have not been conducted to examine whether the blade technology appeared and disappeared over a short yet abrupt episode, or persists and integrates into other forms in the region. Here, we conducted qualitative and quantitative analyses to reconstruct lithic productions on the assemblages at Shuidonggou Locality 2, dated after 34 ka cal BP. Our results show that there is a total absence of laminar elements in stone artifacts dated to 34-28 ka cal BP at Shuidonggou. Instead, we observe a dominance of an expedient production of flakes in the younger assemblages, illustrating a rapid return to flake-based technology after a relatively brief episode of stone blade production. Combining archaeological, environmental, and genetic evidence, we suggest that this technological 'reversal' from blades back to core and flake technology reflect population dynamics and adaptive strategies at an ecological interface between East Asian winter and summer monsoon., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

15. Denisovans and Homo sapiens on the Tibetan Plateau: dispersals and adaptations.

Author

Zhang P, Zhang X, Zhang X, Gao X, Huerta-Sanchez E, and Zwyns N

Subjects

Acclimatization genetics, Archaeology, Humans, Tibet, Adaptation, Physiological genetics, Altitude

Abstract

Recent archaeological discoveries suggest that both archaic Denisovans and Homo sapiens occupied the Tibetan Plateau earlier than expected. Genetic studies show that a pulse of Denisovan introgression was involved in the adaptation of Tibetan populations to high-altitude hypoxia. These findings challenge the traditional view that the plateau was one of the last places on earth colonized by H. sapiens and warrant a reappraisal of the population history of this highland. Here, we integrate archaeological and genomic evidence relevant to human dispersal, settlement, and adaptation in the region. We propose two testable models to address the peopling of the plateau in the broader context of H. sapiens dispersal and their encounters with Denisovans in Asia., Competing Interests: Declaration of interests There are no interests to declare., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

16. Characterization of structural changes in modern and archaeological burnt bone: Implications for differential preservation bias.

Author

Gallo G, Fyhrie M, Paine C, Ushakov SV, Izuho M, Gunchinsuren B, Zwyns N, and Navrotsky A

Subjects

Bone and Bones chemistry, Hot Temperature, Humans, Mongolia, Preservation, Biological, Spectroscopy, Fourier Transform Infrared, X-Ray Diffraction, Archaeology, Bone and Bones metabolism

Abstract

Structural and thermodynamic factors which may influence burnt bone survivorship in archaeological contexts have not been fully described. A highly controlled experimental reference collection of fresh, modern bone burned in temperature increments 100-1200˚C is presented here to document the changes to bone tissue relevant to preservation using Fourier transform infrared spectroscopy and X-ray diffraction. Specific parameters investigated here include the rate of organic loss, amount of bone mineral recrystallization, and average growth in bone mineral crystallite size. An archaeological faunal assemblage ca. 30,000 years ago from Tolbor-17 (Mongolia) is additionally considered to confirm visibility of changes seen in the modern reference sample and to relate structural changes to commonly used zooarchaeological scales of burning intensity. The timing of our results indicates that the loss of organic components in both modern and archaeological bone burnt to temperatures up to 700˚C are not accompanied by growth changes in the average crystallite size of bone mineral bioapatite, leaving the small and reactive bioapatite crystals of charred and carbonized bone exposed to diagenetic agents in depositional contexts. For bones burnt to temperatures of 700˚C and above, two major increases in average crystallite size are noted which effectively decrease the available surface area of bone mineral crystals, decreasing reactivity and offering greater thermodynamic stability despite the mechanical fragility of calcined bone. We discuss the archaeological implications of these observations within the context of Tolbor-17 and the challenges of identifying anthropogenic fire., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

17. The Northern Route for Human dispersal in Central and Northeast Asia: New evidence from the site of Tolbor-16, Mongolia.

Author

Zwyns N, Paine CH, Tsedendorj B, Talamo S, Fitzsimmons KE, Gantumur A, Guunii L, Davakhuu O, Flas D, Dogandžić T, Doerschner N, Welker F, Gillam JC, Noyer JB, Bakhtiary RS, Allshouse AF, Smith KN, Khatsenovich AM, Rybin EP, Byambaa G, and Hublin JJ

Subjects

Animals, Asia, Fossils, Humans, Mongolia, Human Migration, Neanderthals genetics

Abstract

The fossil record suggests that at least two major human dispersals occurred across the Eurasian steppe during the Late Pleistocene. Neanderthals and Modern Humans moved eastward into Central Asia, a region intermittently occupied by the enigmatic Denisovans. Genetic data indicates that the Denisovans interbred with Neanderthals near the Altai Mountains (South Siberia) but where and when they met H. sapiens is yet to be determined. Here we present archaeological evidence that document the timing and environmental context of a third long-distance population movement in Central Asia, during a temperate climatic event around 45,000 years ago. The early occurrence of the Initial Upper Palaeolithic, a techno-complex whose sudden appearance coincides with the first occurrence of H. sapiens in the Eurasian steppes, establishes an essential archaeological link between the Siberian Altai and Northwestern China . Such connection between regions provides empirical ground to discuss contacts between local and exogenous populations in Central and Northeast Asia during the Late Pleistocene.

Published

2019

18. Habitual stone-tool-aided extractive foraging in white-faced capuchins, Cebus capucinus .

Author

Barrett BJ, Monteza-Moreno CM, Dogandžić T, Zwyns N, Ibáñez A, and Crofoot MC

Abstract

Habitual reliance on tool use is a marked behavioural difference between wild robust (genus Sapajus ) and gracile (genus Cebus ) capuchin monkeys. Despite being well studied and having a rich repertoire of social and extractive foraging traditions, Cebus sp. rarely use tools and have never been observed using stone tools. By contrast, habitual tool use by Sapajus is widespread. We review theory and discuss factors which might explain these differences in patterns of tool use between Cebus and Sapajus . We then report the first case of habitual stone tool use in a gracile capuchin: a population of white-faced capuchins ( Cebus capucinus imitator ) in Coiba National Park, Panama who habitually rely on hammerstone and anvil tool use to access structurally protected food items in coastal areas including Terminalia catappa seeds, hermit crabs, marine snails, terrestrial crabs and other items. This behaviour has persisted on one island in Coiba National Park since at least 2004. From 1 year of camera trapping, we found that stone tool use is strongly male-biased. Of the 205 camera trap days where tool use was recorded, adult females were never observed to use stone tools, although they were frequently recorded at the sites and engaged in scrounging behaviour. Stone tool use occurs year-round in this population; over half of all identifiable individuals were observed participating. At the most active tool use site, 83.2% of days where capuchins were sighted corresponded with tool use. Capuchins inhabiting the Coiba archipelago are highly terrestrial, under decreased predation pressure and potentially experience resource limitation compared to mainland populations-three conditions considered important for the evolution of stone tool use. White-faced capuchin tool use in Coiba National Park thus offers unique opportunities to explore the ecological drivers and evolutionary underpinnings of stone tool use in a comparative within- and between-species context., Competing Interests: The authors declare no competing interests.

Published

2018

19. Genome sequence of a 45,000-year-old modern human from western Siberia.

Author

Fu Q, Li H, Moorjani P, Jay F, Slepchenko SM, Bondarev AA, Johnson PL, Aximu-Petri A, Prüfer K, de Filippo C, Meyer M, Zwyns N, Salazar-García DC, Kuzmin YV, Keates SG, Kosintsev PA, Razhev DI, Richards MP, Peristov NV, Lachmann M, Douka K, Higham TF, Slatkin M, Hublin JJ, Reich D, Kelso J, Viola TB, and Pääbo S

Subjects

Alleles, Animals, Chromosomes, Human, Pair 12 genetics, Diet, Evolution, Molecular, Humans, Hybridization, Genetic genetics, Male, Molecular Sequence Data, Mutation Rate, Neanderthals genetics, Phylogeny, Population Density, Population Dynamics, Principal Component Analysis, Sequence Analysis, DNA, Siberia, Fossils, Genome, Human genetics

Abstract

We present the high-quality genome sequence of a ∼45,000-year-old modern human male from Siberia. This individual derives from a population that lived before-or simultaneously with-the separation of the populations in western and eastern Eurasia and carries a similar amount of Neanderthal ancestry as present-day Eurasians. However, the genomic segments of Neanderthal ancestry are substantially longer than those observed in present-day individuals, indicating that Neanderthal gene flow into the ancestors of this individual occurred 7,000-13,000 years before he lived. We estimate an autosomal mutation rate of 0.4 × 10(-9) to 0.6 × 10(-9) per site per year, a Y chromosomal mutation rate of 0.7 × 10(-9) to 0.9 × 10(-9) per site per year based on the additional substitutions that have occurred in present-day non-Africans compared to this genome, and a mitochondrial mutation rate of 1.8 × 10(-8) to 3.2 × 10(-8) per site per year based on the age of the bone.

Published

2014

20. Comment on "Late Mousterian persistence near the Arctic Circle".

Author

Zwyns N, Roebroeks W, McPherron SP, Jagich A, and Hublin JJ

Subjects

Animals, Humans, Archaeology, Hominidae

Abstract

Slimak et al. (Reports, 13 May 2011, p. 841) reanalyzed the lithic assemblage from the northern site of Byzovaya (Russia) and concluded that it was Mousterian and produced by Neandertals. The previous interpretation of this assemblage as falling within Early Upper Paleolithic variability remains the most parsimonious explanation; pending additional fossil discoveries, there is no evidence supporting the occurrence of Neandertals at these high latitudes.

Published

2012

21. New radiocarbon dates for the Zagros Aurignacian from Yafteh cave, Iran.

Author

Otte M, Shidrang S, Zwyns N, and Flas D

Subjects

Carbon Radioisotopes analysis, Humans, Iran, Charcoal chemistry, Paleontology methods

Published

2011

22. A complete mtDNA genome of an early modern human from Kostenki, Russia.

Author

Krause J, Briggs AW, Kircher M, Maricic T, Zwyns N, Derevianko A, and Pääbo S

Subjects

DNA, Mitochondrial isolation & purification, Evolution, Molecular, Fossils, History, Ancient, Humans, Polymerase Chain Reaction, Russia, DNA, Mitochondrial genetics, DNA, Mitochondrial history, Genome, Human, Genome, Mitochondrial

Abstract

The recovery of DNA sequences from early modern humans (EMHs) could shed light on their interactions with archaic groups such as Neandertals and their relationships to current human populations. However, such experiments are highly problematic because present-day human DNA frequently contaminates bones [1, 2]. For example, in a recent study of mitochondrial (mt) DNA from Neolithic European skeletons, sequence variants were only taken as authentic if they were absent or rare in the present population, whereas others had to be discounted as possible contamination [3, 4]. This limits analysis to EMH individuals carrying rare sequences and thus yields a biased view of the ancient gene pool. Other approaches of identifying contaminating DNA, such as genotyping all individuals who have come into contact with a sample, restrict analyses to specimens where this is possible [5, 6] and do not exclude all possible sources of contamination. By studying mtDNA in Neandertal remains, where contamination and endogenous DNA can be distinguished by sequence, we show that fragmentation patterns and nucleotide misincorporations can be used to gauge authenticity of ancient DNA sequences. We use these features to determine a complete mtDNA sequence from a approximately 30,000-year-old EMH from the Kostenki 14 site in Russia.

Published

2010