| Инд. авторы: | Feuerborn T.R., Carmagnini A., Losey R.J., Nomokonova T., Askeyev A., Askeyev I., Askeyev O., Antipina E.E., Appelt M., Bachura O.P., Beglane F., Bradley D.G., Daly K.G., Gopalakrishnan S., Gregersen K.M., Guo C.X., Gusev A.V., Jones C., Kosintsev P.A., Kuzmin Y.V., Mattiangeli V., Perri A.R., Plekhanov A.V., Ramos-Madrigal J., Schmidt A.L., Shaymuratova D., Smith O., Yavorskaya L.V., Zhang G.J., Willerslev E., Meldgaard M., Gilbert M.T.P., Larson G., Dalen L., Hansen A.J., Sinding M.H.S., Frantz L. |
| Заглавие: | Modern Siberian dog ancestry was shaped by several thousand years of Eurasian-wide trade and human dispersal |
| Библ. ссылка: | Feuerborn T.R., Carmagnini A., Losey R.J., Nomokonova T., Askeyev A., Askeyev I., Askeyev O., Antipina E.E., Appelt M., Bachura O.P., Beglane F., Bradley D.G., Daly K.G., Gopalakrishnan S., Gregersen K.M., Guo C.X., Gusev A.V., Jones C., Kosintsev P.A., Kuzmin Y.V., Mattiangeli V., Perri A.R., Plekhanov A.V., Ramos-Madrigal J., Schmidt A.L., Shaymuratova D., Smith O., Yavorskaya L.V., Zhang G.J., Willerslev E., Meldgaard M., Gilbert M.T.P., Larson G., Dalen L., Hansen A.J., Sinding M.H.S., Frantz L. Modern Siberian dog ancestry was shaped by several thousand years of Eurasian-wide trade and human dispersal // Proceedings of The National Academy of Sciences of The United States of America. - 2021. - Vol.118. - Iss. 39. - Art.e2100338118. - ISSN 0027-8424. - EISSN 1091-6490. |
| Идентиф-ры: | DOI: 10.1073/pnas.2100338118; РИНЦ: 47061096; PubMed: 34544854; WoS: 000704004200007; |
| Реферат: | eng: Dogs have been essential to life in the Siberian Arctic for over 9,500 y, and this tight link between people and dogs continues in Siberian communities. Although Arctic Siberian groups such as the Nenets received limited gene flow from neighboring groups, archaeological evidence suggests that metallurgy and new subsistence strategies emerged in Northwest Siberia around 2,000 y ago. It is unclear if the Siberian Arctic dog population was as continuous as the people of the region or if instead admixture occurred, possibly in relation to the influx of material culture from other parts of Eurasia. To address this question, we sequenced and analyzed the genomes of 20 ancient and historical Siberian and Eurasian Steppe dogs. Our analyses indicate that while Siberian dogs were genetically homogenous between 9,500 to 7,000 y ago, later introduction of dogs from the Eurasian Steppe and Europe led to substantial admixture. This is clearly the case in the Iamal-Nenets region (Northwestern Siberia) where dogs from the Iron Age period (-2,000 y ago) possess substantially less ancestry related to European and Steppe dogs than dogs from the medieval period (-1,000 y ago). Combined with findings of nonlocal materials recovered from these archaeological sites, including glass beads and metal items, these results indicate that Northwest Siberian communities were connected to a larger trade network through which they acquired genetically distinctive dogs from other regions. These exchanges were part of a series of major societal changes, including the rise of large-scale reindeer pastoralism-800 y ago. |
| Ключевые слова: | ORIGINS; population genetics; ; Arctic; ; dogs; palaeogenomics; |
| Издано: | 2021 |
| Цитирование: | 1. V. V. Pitul'ko, A. K. Kasparov, Ancient Arctic hunters: Material culture and survival strategy. Arctic Anthropol. 33, 1-36 (1996). 2. V. V. Pitul'ko, A. K. Kasparov, Archaeological dogs from the Early Holocene Zhokhov site in the Eastern Siberian Arctic. J. Archaeol. Sci. Rep. 13, 491-515 (2017). 3. V. D. Adaev, Reindeer herding laika among tundra Nenets: Specifics of exterior and performance of tasks. Scientific Vestnik of IaNAO 1, 25-33 (2014). 4. Е. П. Батьянова, В. А. Тураев, Народы Северо-Востока Сибири. М. Наука, 2010. 5. C. M. Taksami, Ethnic Culture of Nivkhi-Aboriginals of the Pacific North and Far East (Nauka, Novosibirsk, 2007). 6. E. H. M. Wong et al., Reconstructing genetic history of Siberian and Northeastern European populations. Genome Res. 27, 1-14 (2017). 7. K. Tambets et al., Genes reveal traces of common recent demographic history for most of the Uralic-speaking populations. Genome Biol. 19, 139 (2018). 8. A. Bergström et al., Origins and genetic legacy of prehistoric dogs. Science 370, 557-564 (2020). 9. G. N. Prokof'ev, Ethnogony of the ethnic groups in the Ob-Yenisei basin. Sov. Etnogr. 3, 67-76 (1940). 10. P. Hajdú, The Samoyed Peoples and Languages (Indiana University, 1963). 11. E. A. Helimski, The external connections and early contacts of the Uralic languages. Problems of Uralistics 1, 19-43 (1990). 12. J. Janhunen, "Proto-Uralic-What, where, and when" in The Quasquicentennial of the Finno-Ugrian Society, J. Ylikoski, Ed. (Suomalais-Ugrilainen Seura., Helsinki, 2009), pp. 57-78. 13. N. V. Fedorova, A. V. Gusev, The north of Western Siberia and the cultural worlds of Eurasia at the turn of the eras, Vestnik of St. Petersburg University. History (Lond.) 64, 740-761 (2019). 14. I. Pugach et al., The complex admixture history and recent southern origins of Siberian populations. Mol. Biol. Evol. 33, 1777-1795 (2016). 15. E. V. Vodyasov, A. V. Gusev, E. M. Asochakova, Ust-Polui: The earliest evidence of iron metallurgy in the Arctic region. Siberian Hist. Res. 3, 113-132 (2017). 16. L. A. F. Frantz et al., Genomic and archaeological evidence suggest a dual origin of domestic dogs. Science 352, 1228-1231 (2016). 17. M. Ní Leathlobhair et al., The evolutionary history of dogs in the Americas. Science 361, 81-85 (2018). 18. M. S. Sinding et al., Arctic-adapted dogs emerged at the Pleistocene-Holocene transition. Science 368, 1495-1499 (2020). 19. C. Ameen et al., Specialized sledge dogs accompanied Inuit dispersal across the North American Arctic. Proc. Biol. Sci. 286, 20191929 (2019). 20. M. E. Allentoft et al., Population genomics of Bronze Age Eurasia. Nature 522, 167-172 (2015). 21. I. Lazaridis et al., Genomic insights into the origin of farming in the ancient Near East. Nature 536, 419-424 (2016). 22. M. Ollivier et al., Dogs accompanied humans during the Neolithic expansion into Europe. Biol. Lett. 14, 14 (2018). 23. K. Leppälä, S. V. Nielsen, T. Mailund, admixturegraph: An R package for admixture graph manipulation and fitting. Bioinformatics 33, 1738-1740 (2017). 24. R. J. Losey et al., Dog body size in Siberia and the Russian Far East and its implications. Quat. Sci. Rev. 241, 106430 (2020). 25. G. Larson et al., Rethinking dog domestication by integrating genetics, archeology, and biogeography. Proc. Natl. Acad. Sci. U.S.A. 109, 8878-8883 (2012). 26. K. H. Røed et al., Temporal and structural genetic variation in reindeer (Rangifer tarandus) associated with the pastoral transition in Northwestern Siberia. Ecol. Evol. 10, 9060-9072 (2020). 27. K. Lindblad-Toh et al., Genome sequence, comparative analysis and haplotype structure of the domestic dog. Nature 438, 803-819 (2005). 28. H. Li, Aligning sequence reads, clone sequences and assembly contigs with BWAMEM. arXiv [Preprint] (2013). arXiv:1303.3997v2 (Accessed 1 September 2019). 29. H. Li, R. Durbin, Fast and accurate short read alignment with Burrows-Wheeler transform. Bioinformatics 25, 1754-1760 (2009). 30. T. S. Korneliussen, A. Albrechtsen, R. Nielsen, ANGSD: Analysis of next generation sequencing data. BMC Bioinformatics 15, 356 (2014). 31. T. Feuerborn, Project: PRJEB422611, European Nucleotide Archive. https://www.ebi. ac.uk/ena/browser/view/PRJEB42261. Deposited 9 February 2021. |