Environmental dynamics of the Baraba forest-steppe (Siberia) over the last 8000 years and their impact on the types of economic life of the population

Zhilich S.; Rudaya N.; Krivonogov S.; Nazarova L.; Pozdnyakov D.

doi:10.1016/j.quascirev.2017.03.022

Инд. авторы:	Zhilich S., Rudaya N., Krivonogov S., Nazarova L., Pozdnyakov D.
Заглавие:	Environmental dynamics of the Baraba forest-steppe (Siberia) over the last 8000 years and their impact on the types of economic life of the population
Библ. ссылка:	Zhilich S., Rudaya N., Krivonogov S., Nazarova L., Pozdnyakov D. Environmental dynamics of the Baraba forest-steppe (Siberia) over the last 8000 years and their impact on the types of economic life of the population // Quaternary Science Reviews. - 2017. - Vol.163. - P.152-161. - ISSN 0277-3791.
Внешние системы:	DOI: 10.1016/j.quascirev.2017.03.022; РИНЦ: 29500654; SCOPUS: 2-s2.0-85016153567; WoS: 000401204200009;
Реферат:	eng: This article offers a reconstruction of the vegetation and climate of the south-western Siberian Baraba forest-steppe area during the last ca. 8000 years. The analysis of palynological data from the sediment core of Lake Bolshie Toroki using quantitative methods has made it possible to reconstruct changes of the dominant types of vegetation and mean July air temperatures. Coniferous forests grew in the vicinity of the lake, and mean July air temperatures were similar to present-day ones between 7.9 and 7.0 kyr BP. The warmest and driest climate occurred at 7.0–5.0 kyr BP. At that time, the region had open steppe landscapes; birch groves began to spread. A cooling trend is seen after 5.5 kyr BP, when forest-steppe began to emerge. Steppe communities started to dominate again after 1.5 kyr BP. Mean July air temperatures lower than now are reconstructed for the period of 1.9–1 kyr BP, and then the temperatures became similar to present-day ones. Comparing the archaeological data on the types of economy of the population which inhabited the Baraba forest-steppe with the data on changes in the natural environment revealed a connection between the gradual transition from hunting and fishing to livestock breeding and the development of forest-steppe landscapes with a decrease in the area covered by forests. The development of the forest-steppe as an ecotonic landscape starting around 5 kyr BP might have contributed to the coexistence of several archaeological cultures with different types of economy on the same territory. © 2017 Elsevier Ltd
Ключевые слова:	Archaeology; Baraba forest-steppe; Climate dynamics; Holocene; Russia; Transfer functions; Vegetation; Archaeology; Baraba forest-steppe; Climate dynamics; Holocenes; Russia; Vegetation dynamics; Population statistics; Lakes; Dynamics; Atmospheric temperature; Agriculture; Vegetation dynamics; Transfer function; Forestry;
Издано:	2017
Физ. характеристика:	с.152-161
Цитирование:	1. Altman, D., Bland, J.M., Measurement in medicine: the analysis of method comparison studies. Statistician 32 (1983), 307–317. 2. Andreev, A.A., Tarasov, P.E., second ed. Northern Asia. - the Encyclopedia of Quaternary Science, vol. 4, 2013, 164–172. 3. Andreev, A.A., Tarasov, P.E., Wennrich, V., Raschke, E., Herzschuh, U., Nowaczyk, N.R., Brigham–Grette, J., Melles, M., Late Pliocene and Early Pleistocene vegetation history of northeastern Russian Arctic inferred from the Lake El'gygytgyn pollen record. Clim. Past. 10 (2014), 1017–1039. 4. Barley, E.M., Walker, I.R., Kurek, J., Cwynar, L.C., Mathewes, R.W., Gajewski, K., Finney, B.P., A northwest North American training set: distribution of freshwater midges in relation to air temperature and lake depth. J. Paleolimnol. 36 (2006), 295–314 DOl 1O.1007/s10933-006-0014-6. 5. Bashtannik, S.V., Archaeobotanical findings from the archaeological sites of Western Siberia (Trans.) Arkheobotanicheskie nakhodki na arkheologicheskikh pamyatnikakh Zapadnoi Sibiri Vestn. Tomsk. Gos. Univ. 1:5 (2009), 49–52 (in Russian). 6. Bezrukova, E.V., Tarasov, P.E., Solovieva, N., Krivonogov, S.K., Riedel, F., Last glacial–interglacial vegetation and environmental dynamics in southern Siberia: chronology, forcing and feedbacks. Palaeogeogr. Palaeoclimatol. Palaeoecol. 296 (2010), 185–198. 7. Birks, H.J.B., Quantitative palaeoenvironmental reconstructions. Statistical Modeling of Quaternary Science Data. Technical Guide 5, 1995, Quaternary Research Association, Cambridge. 8. Birks, H.J.B., Numerical tools in paleolimnology progress, potential, and problems. J. Paleolimnol. 20 (1998), 307–332. 9. Blaauw, M., Christen, J.A., Flexible paleoclimate age – depth models using an autoregressive gamma process. Bayesian Anal. 3:6 (2011), 457–474. 10. Blyakharchuk, T.A., Wright, H.E., Borodavko, P.S., van der Knaap, W.O., Ammann, B., Late Glacial and Holocene vegetational history of the Altai Mountains (southwestern Tuva Republic, Siberia). Palaeogeogr. Palaeoclimatol. Palaeoecol. 245 (2007), 518–534. 11. Blyakharchuk, T.A., Wright, H.E., Borodavko, P.S., van der Knaap, W.O., Ammann, B., The role of Pingos in the development of the Dzhangyskol lake–pingo complex, central Altai Mountains, southern Siberia. Palaeogeogr. Palaeoclimatol. Palaeoecol. 254 (2008), 404–420. 12. Borren, W., Bleuten, W., Lapshina, E.D., Holocene peat and carbon accumulation rates in the southern taiga of western Siberia. Quat. Res. 61 (2004), 42–51. 13. Brigham–Grette, J., Melles, M., Minyuk, P., Andreev, A., Tarasov, P., DeConto, R., Koenig, S., Nowaczyk, N., Wennrich, V., Rosén, P., Haltia–Hovi, E., Cook, T., Gebhardt, C., Meyer–Jacob, C., Snyder, J., Herzschuh, U., Pliocene warmth, polar amplification, and stepped Pleistocene cooling recorded in NE Arctic Russia. Science 340 (2013), 1421–1427. 14. Chikisheva, T.A., Dynamics of Anthropological Differentiations of Population of the South of Western Siberia in Neolithic – Earle Iron Age (Trans.) Dinamika antropologicheskoi differentsiatsii naseleniya yuga Zapadnoi Sibiri v epokhi neolita – rannego zheleza, 2012 Izdatel'stvo IAET SO RAN, Novosibirsk (in Russian). 15. Elagin, V.S., Molodin, V.I., Baraba in the 1st Millennium (Trans.) Baraba v. I tysyacheletii n.e, 1991 Nauka, Sibirskoe otdelenie, Novosibirsk (in Russian). 16. Grimm, E., Tilia Software 2.0.2. 2004, Illinois State Museum Research and Collection Center, Springfield, IL. 17. Gumilev, L.N., Millenium Ariund the Kaspian (Trans.) Tysyacheletie vokrug Kaspiya, 1990 Azerbaidzhanskoe gosudarstvennoe izdatel'stvo, Baku (in Russian). 18. Gupta, A., Origin of agriculture and domestication of plants and animals linked to early Holocene climate amelioration. Curr. Sci. 87 (2004), 54–59. 19. Gvozdetsky, N.A., Mikhailov, N.I., Physical Geography of the USSR. Asian Part (Trans.) Fizicheskaya geografiya SSSR. Aziatskaya chast’, 1978 Mysl’, Moscow (in Russian). 20. Hoff, U., Biskaborn, B.K., Dirksen, V., Dirksen, O., Kuhn, G., Meyer, H., Nazarova, L., Roth, A., Diekmann, B., Holocene environment of central kamchatka, Russia: implications from a multi-proxy record of two-yurts lake. Glob. Planet. Chang. 134 (2015), 101–117, 10.1016/j.gloplacha.2015.07.011. 21. Juggins, S., Quantitative reconstructions in palaeolimnology: new paradigm or sick science?. Quat. Sci. Rev. 64 (2013), 20–32. 22. Khazin, L.B., Khazina, I.V., Novosibirskaya oblast’) (Micropaleontological and pollen analisys of upper Holocene sediments of Chicha-1 section (Trans.) Mikropaleontologicheskii i palinologicheskii analizy verkhne-golotsenovykh otlozhenii razreza Chicha-1 Nov. Paleontol. i Stratigr. Prilozhenie K. Zhurnalu Geol. i Geofiz. 49:10–11 (2008), 473–476 (in Russian). 23. Khazina, I.V., Vegetation and Climate of the Southeastern Part of Western Siberia Based on the Pollen Data (Trans.) Rastitel'nost’ i klimat v golotsene yugo-vostochnoi chasti Zapadnoi Sibiri (po palinologicheskim dannym): avtoreferat dissertatsii na soiskanie nauchnoi stepeni kandidata geologo-mineralogicheskikh nauk, 2008 Novosibirsk (in Russian). 24. Khotinsky, N.A., Holocene of North Eurasia (Trans.) Golotsen Severnoi Evrazii, 1977 Nauka, Moscow (in Russian). 25. Kiryushin, K.Yu, Sitnikov, S.M., Semibratov, V.P., Gelmel, YuI., Study of Novoil'inka III site in 2010 (Trans.) Issledovanie poseleniya Novoil'inka III v 2010 godu Problemy arkheologii, etnografii, antropologii Sibiri i sopredel'nykh territorii: Materialy itogovoi sessii Instituta arkheologii i etnografii SO RAN 2010 g. Izdatel'stvo IAET SO RAN, Novosibirsk, vol. 16, 2010, 211–216 (in Russian). 26. Kiryushin, YuF., Kosintsev, P.A., Papin, D.V., Fedoruk, A.S., Questions of economic activities of population of steppe Ob'-Irtysh in late Bronze Age (Trans.) Voprosy khozyaistvennoi deyatel'nosti naseleniya stepnogo Ob’-Irtysh'ya v epokhu pozdnei bronzy Khozyaistvenno-kul'turnye traditsii Altaya v epokhu bronzy: sbornik nauchnykh trudov. Slovo, Barnaul, 2010, 122–128 (in Russian). 27. Klemm, J., Herzschuh, U., Pisaric, M.F.J., Telford, R.J., Heim, B., Pestryakova, L.A., A pollen–climate transfer function from the tundra and taiga vegetation in Arctic Siberia and its applicability to a Holocene record. Palaeogeogr. Palaeoclimatol. Palaeoecol. 386 (2013), 702–713. 28. Klimanov, V.A., Levina, T.P., Orlova, V.V., Climate change in Baraba (Trans.) Izmenenie klimata na territorii Barabinskoi ravniny Tr. instituta Geol. i Geofiz. 690 (1987), 143–149 (in Russian). 29. Krivonogov, S.K., Takahara, H., Yamamuro, M., Preis, YuI., Khazina, I.V., Khazin, L.B., Safonova, I.Y., Ignatova, N.V., Regional to local environmental changes in southern Western Siberia: evidence from biotic records of Mid to Late Holocene sediments of Lake Beloye. Palaeogeogr. Palaeoclimatol. Palaeoecol. 331–332 (2012), 177–193. 30. Krivonogov, S.K., Yamamuro, M., Takahara, H., Kazansky, A.Y., Klimin, M.A., Bobrov, V.A., Safonova, I.Y., Phedorin, M.A., Bortnikova, S.B., An abrupt ecosystem change in Lake Beloye, southern Western Siberia: palaeoclimate versus local environment. Palaeogeogr. Palaeoclimatol. Palaeoecol. 331–332 (2012), 194–206. 31. Levina, T.P., Orlova, V.V., Panychev, V.A., Ponomareva, E.A., Radiochronometry and pollen stratigraphy of the Holocene peat site Kayanskoe zaimishche (Trans.) Radiokhronometriya i pyl'tsevaya stratigrafiya golotsenovogo torfyanika Kayanskoe zaimishche (Barabinskaya lesostep’) Regional'naya geokhronologiya Sibiri i Dal'nego Vostoka. Nauka, Sibirskoe otdelenie, Novosibirsk, 1987, 136–143 (in Russian). 32. Maltsev, A.E., Leonova, G.A., Bobrov, V.A., Melenevsky, V.N., Lazareva, E.V., Krivonogov, S.K., Diagenesis of organomineral sapropel in Lake Bolshie Toroki (Trans.) Diageneticheskoe preobrazovanie organo–mineral'nykh sapropelei ozera Bol'shie Toroki (Zapadnaya Sibir’) Litol. Petrogr. Mineral. Geokhimiya 3:19 (2014), 65–75 (in Russian). 33. Molodin, V.I., Soloviev, A.I., Chemyakina, M.A., Sumin, V.A., Anufriev, D.E., Evteeva, E.M., Knyazev, A.O., Kravchenko, E.V., Archaeological Sites of Chany District, Novosibirsk Region (Trans.) Arkheologicheskie pamyatniki Chanovskogo raiona Novosibirskoi oblasti, 2011 Materialy “Svoda pamyatnikov istorii i kul'tury narodov Rossii” 8 (in Russian). 34. Molodin, V.I., Mylnikova, L.N., Nesterova, M.S., Borzykh, K.A., Marochkin, A.G., Study of site of Krotovo culture Vengerovo-2 and finding of Neolithic burial ground Vengerovo-2A (Trans.) Issledovanie poseleniya krotovskoi kul'tury Vengerovo–2 i otkrytie neoliticheskogo mogil'nika Vengerovo–2A Problemy arkheologii, etnografii, antropologii Sibiri i sopredel'nykh territorii. Izdatelstvo IAET SO RAN, Novosibirsk, vol. 17, 2011, 199–205 (in Russian). 35. Molodin, V.I., Mylnikova, L.N., Nesterova, M.S., Orlova, L.A., Unique funeral complex of Neolithic in Baraba forest steppe (Trans.) Unikal'nyi pogrebal'no–ritual'nyi kompleks epokhi neolita v Barabinskoi lesostepi Problemy arkheologii, etnografii, antropologii Sibiri i sopredel'nykh territorii. Izdatelstvo IAET SO RAN, Novosibirsk, vol. 18, 2012, 117–122 (in Russian). 36. Molodin, V.I., Neolithic and Bronze Age of Forest-steppe Ob’–irtysh (Trans.) Epokha neolita i bronzy lesostepnogo Ob’–Irtysh'ya, 1977 Nauka, Sibirskoe otdelenie, Novosibirsk (in Russian). 37. Molodin, V.I., Baraba in Bronze Age (Trans.) Baraba v epokhu bronzy, 1985 Nauka, Sibirskoe otdelenie, Novosibirsk (in Russian). 38. Molodin, V.I., Baraba in Turkish Period (Trans.) Baraba v tyurkskoe vremya, 1988 Nauka, Sibirskoe otdelenie, Novosibirsk (in Russian). 39. Molodin, V.I., 2001. Pamyatnik Sopka–2 na reke Omi (kul'turno–khronologicheskie analiz pogrebal'nykh kompleksov neolita i rannego metalla) (Site Sopka–2 on the Om River: funeraly complex of the Neolithic and Early Iron Age). Izdatel'stvo IAET SO RAN, Novosibirsk, vol. 1 (in Russian). 40. Molodin, V.I., Odinovo culture in Eastern Transural and Western Siberia (Trans.) Odinovskaya kul'tura v Vostochnom Zaural'e i Zapadnoi Sibiri. Problema vydeleniya Rossiya mezhdu proshlym i budushchim: istoricheskii opyt natsional'nogo razvitiya: Materialy Vserossiyskoi nauchnoi konferentsii. Yekaterinburg, 2008, 9–13 (in Russian). 41. Molodin, V.I., To the question of Berlik culture (Trans.) K voprosu o vydelenii berlikskoi kul'tury Integratsiya arkheologicheskikh i etnograficheskikh issledovaniy. Novosibirsk, Omsk, 2008, 78–81 (in Russian). 42. Molodin, V.I., Izdatelstvo IAET SO RAN, Novosibirsk Pamyatnik Sopka–2 na reke Omi: kul'turno–khronologicheskie analiz pogrebal'nykh kompleksov odinovskoi kul'tury (Site Sopka-II on the Om River: Cultural and Chronological Analisys of Funeral Complexes of Odinovo Culture), vol. 3, 2012 (in Russian). 43. Nazarova, L., Herzschuh, U., Wetterich, S., Kumke, Th, Pestjakova, L., Chironomid–based inference models for estimating mean July air temperature and water depth from lakes in Yakutia, northeastern Russia. J. Palaeolimnology 45 (2011), 57–71. 44. Nazarova, L., Lüpfert, H., Subetto, D., Pestryakova, L., Diekmann, B., Holocene climate conditions in Central Yakutia (North-Eastern Siberia) inferred from sediment composition and fossil chironomids of Lake Temje. Quat. Int. 290–291 (2013), 264–274. 45. Nazarova, L., Self, A., Brooks, S.J., van Hardenbroek, M., Herzschuh, U., Diekmann, B., Northern Russian chironomid–based modern summer temperature data set and inference models. Glob. Planet. Chang. 134 (2015), 10–25. 46. Nazarova, L., Bleibtreu, A., Hoff, U., Dirksen, V., Diekmann, B., Changes in temperature and water depth of a small mountain lake during the past 3000 years in Central Kamchatka reflected by chironomid record. Quat. Int., 2017, 10.1016/j.quaint.2016.10.008. 47. Nenasheva, G.I., Pollen study of pollen-spore spectra of the Holocene sediments, Lake Eshtykol, Centra Altai (Trans.) Palinologicheskie issledovaniya sporovo–pyl'tsevykh spektrov golotsenovykh otlozheniy (na primere ozera Eshtykkol’, Tsentral'nyi Altai) Geografiya i prirodopol'zovanie Sibiri 8. Izdatel'stvo AltGU, Barnaul, 2006, 146–155 (in Russian). 48. New, M., Lister, D., Hulme, M., Makin, I., A high–resolution data set of surface climate over global land areas. Clim Res. 21 (2002), 1–25. 49. Orlova, L.A., Golotsen Baraby (Holocene of Baraba). Stratigrafiya i radiouglerodnaya khronologiya. Nauka, Sibirskoe otdelenie, Novosibirsk, 2004 (in Russian). 50. Overland, J.E., Wang, M., The Arctic climate paradox: the recent decrease of the Arctic Oscillation. Geophys. Res. Lett. 32 (2005), 1–5. 51. Polosmak, N.V., Baraba in Early Iron Age (Trans.) Baraba v epokhu rannego zheleza, 1989 Nauka, Sibirskoe otdelenie, Novosibirsk (in Russian). 52. Polosmak, N.V., ‘The Guarding Gold Vultures’, the Ak-alakha Barrows (Trans.) “Steregushchie zoloto grify” (ak–alakhinskie kurgany), 1994 Novosibirsk (in Russian). 53. Polosmak, N.V., Vsadniki Ukoka. 2001, Infolio-Press, Novosibirsk (in Russian). 54. Prentice, C.I., Guiot, J., Huntley, B., Jolly, D., Cheddadi, R., Reconstructing biomes from palaeoecological data: a general method and its application to European pollen data at 0 and 6 ka. Clim. Dyn. 12 (1996), 185–194. 55. Prokopenko, A., Khursevich, G., Bezrukova, E., Kuzmin, M., Boes, X., Williams, D., Fedenya, S., Kulagina, N., Letunova, P., Abzaeva, A., Paleoenvironmental proxy records from Lake Hovsgol, Mongolia, and a synthesis of Holocene climate change in the Lake Baikal watershed. Quat. Res. 68 (2007), 2–17. 56. Reille, M., Pollen et spores d'Europe et d'Afrique du nord. 1992, Laboratoire de botanique historique et palynologie, URA CNRS, Marseille, France. 57. Reille, M., Pollen et spores d'Europe et d'Afrique du nord. Supplement 1. 1995, Laboratoire de botanique historique et palynologie, URA CNRS, Marseille, France. 58. Reille, M., Pollen et spores d'Europe et d'Afrique du nord. Supplement 2. 1998, Laboratoire de botanique historique et palynologie, URA CNRS, Marseille, France. 59. Rudaya, N.A., Andreev, A.A., Kalugin, I.A., Daryin, A.V., Ovchinnikov, D.V., Dickman, B., Izmeneniya prirodnoi sredy severnogo Rossiyskogo Altaya (oz. Teletskoe) v techenie poslednikh 1500 let. Fundamental'nye problemy kvartera: itogi izucheniya i osnovnye napravleniya dal'neishikh issledovaniy: Materialy VI Vserossiyskogo soveshchaniya po izucheniyu chetvertichnogo perioda, 2009, Izdatel'stvo SO RAN, Novosibirsk, 510–513 (in Russian). 60. Rudaya, N., Nazarova, L., Nourgaliev, D., Palagushkina, O., Papin, D., Frolova, L., Mid–late Holocene environmental history of Kulunda, southern West Siberia: vegetation, climate and humans. Quat. Sci. Rev. 48 (2012), 32–42. 61. Rudaya, N., Nazarova, L., Novenko, E., Andreev, A., Kalugin, I., Daryin, A., Babich, V., Li, Hong-Chun, Shilov, P., Mid Holocene climate and vegetation in the northern altay mountains recorded in Lake teletskoe. Glob. Planet. Chang. 141 (2016), 12–24, 10.1016/j.gloplacha.2016.04.002. 62. Sidorov, E.A., O zemledelii irmenskoi kul'tury (po materialam lesostepnogo Priob'ya). Paleoekonomika Sibiri. Nauka, Novosibirsk, 1986, 54–66 (in Russian). 63. Solovieva, N., Klimaschewski, A., Self, A.E., Jones, V.J., Andrén, E., Andreev, A.A., Hammarlund, D., Lepskaya, E.V., Nazarova, L., Holocene environmental history of a small coastal lake from north-eastern Kamchatka Peninsula. Glob. Planet. Chang. 134 (2015), 55–66, 10.1016/j.gloplacha.2015.06.010. 64. Tarasov, P., Bezrukova, E., Karabanov, E., Nakagawa, T., Wagner, M., Kulagina, N., Letunova, P., Abzaeva, A., Granoszewski, W., Riedel, F., Vegetation and climate dynamics during the Holocene and Eemian interglacials derived from Lake Baikal pollen records. Palaeogeogr. Palaeoclimatol. Palaeoecol. 252 (2007), 440–457. 65. Tarasov, P.E., Müller, S., Zech, M., Andreeva, D., Diekmann, B., Leipe, C., Last glacial vegetation reconstructions in the extreme–continental eastern Asia: potentials of pollen and nalkane biomarker analyses. Quat. Int. 290–291 (2013), 253–263. 66. ter Braak, C.J.F., Looman, C.W.N., Weighted averaging, logistic regression and the Gaussian response model. Vegetation 65 (1986), 3–11. 67. ter Braak, C.J.F., Juggins, S., Weighted averaging partial least squares regression (WA-PLS): an improved method for reconstructing environmental variables from species assemblages. Hydrobiologia 269/270, 1993, 485–502. 68. ter Braak, C.J.F., Šmilauer, P., CANOCO Reference Manual and CanoDraw for Windows User's Guide: Software for Canonical Community Ordination (Version 4.5). 2002, Microcomputer Power, Ithaca, NY. 69. ter Braak, C.J.F., Šmilauer, P., CANOCO for Windows: Software for Community Ordination (Version 4.5). 2002, Microcomputer Power, Ithaca, NY. 70. ter Braak, C.J.F., Update Notes: CANOCO Version 3.10. 1990, Agricultural Mathematics Group, Wageningen. 71. ter Braak, C.J.F., Ordination. Data Analysis in Community and Landscape Ecology, 1995, Cambridge University Press, Cambridge, 69–173 Ch. 5. 72. Wang, Y., Herzschuh, U., Shumilovskikh, L.S., Mischke, S., Birks, H.J.B., Wischnewski, J., Böhner, J., Schlütz, F., Lehmkuhl, F., Diekmann, B., Wünnemann, B., Zhang, C., Quantitative reconstruction of precipitation changes on the NE Tibetan Plateau since the Last Glacial Maximum – extending the concept of pollen source area to pollen–based climate reconstructions from large lakes. Clim. Past 10 (2014), 21–39. 73. Williams, D.F., Peck, J., Karabanov, E.B., Prokopenko, A.A., Kravchinsky, V., King, J., Kuzmin, M.I., Lake Baikal record of continental climate response to orbital insolation during the past 5 million years. Science 278 (1997), 1114–1117. 74. Zakh, V.A., Ryabogina, N.E., Chlachula, J., Climate and environmental dynamics of the mid– to late Holocene settlement in the Tobol–Ishim forest–steppe region, West Siberia. Quat. Int. 220:1–2 (2010), 95–101. 75. Zakh, V.A., Volkov, E.N., Zimina, O.Yu, Skochina, S.N., Chikunova, I.Yu, Usacheva, I.V., Tsembalyuk, S.I., Adaptation, transformation and interactions of cultures in the Holocene of Tobol-Ishim in transit period (Trans.) Adaptatsiya, transformatsiya i vzaimodeistvie kul'tur v golotsene Tobolo-Ishim'ya v perekhodnye periody Derevianko, A.P., Kudelin, A.B., Tishkov, V.A., (eds.) Adaptatsiya narodov i kul'tur k izmeneniyam prirodnoi sredy, sotsial'nym i tekhnogennym transformatsiyam. Rossiiskaya politicheskaya entsiklopediya (ROSSPEN), Moscow, 2010, 97–106 (in Russian). 76. Zakh, V.A., K probleme neolitizatsii Zapadnoi Sibiri (Problem of Neolithic of the Western Siberia). AB OVO: Problemy genezisa kul'tury. Izdatelstvo Tyumenskogo gosudarstvennogo universiteta, Tyumen, 2005, 60–70 (in Russian).