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The Anatomy of Deep Time

Rock Art and Landscape in the Altai Mountains of Mongolia

Published online by Cambridge University Press:  22 February 2020

Esther Jacobson-Tepfer
Affiliation:
University of Oregon

Summary

Petroglyphic rock art in three valleys of Mongolia's Altai Mountains reveals the anatomy of deep time at the boundary between Central and North Asia. Inscribed over a period of twelve millennia, its subject matter, styles, and manner of execution reflect the constraints of changing geology, climate, and vegetation. These valleys were created and shaped by ancient glaciers. Analysis of their physical environment, projected from the deep past to the present, begins to explain the rhythm of cultural manifestations: where rock art appears, when it disappears, and why. The material and this remote arena offer an ideal laboratory to study the intersection of prehistoric culture and paleoenvironment.
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Online ISBN: 9781108855518
Publisher: Cambridge University Press
Print publication: 12 March 2020

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References

Barton, L., Brantingham, P. J, and Duxue, J. 2007. Late Pleistocene Climate Change and Palaeolithic Cultural Evolution in Northern China: Implications from the Last Glacial Maximum. In: Madsen, D. B., Chen, F.-H., and Xing, G. (Eds.), Late Quaternary Climate Change and Human Adaptation in Arid China. Elsevier, Amsterdam, pp. 105128.Google Scholar
Bednarik, Robert. 2001. Rock Art Science: The Scientific Study of Palaeoart. Brepols Publishers, Belgium.Google Scholar
Blomdin, Robert, Heyman, J, Stroeven, A. P, et al. 2014. Glacial Geomorphology of the Altai and Western Sayan Mountains, Central Asia. Journal of Maps 12: 123136.CrossRefGoogle Scholar
Blyakharchuyk, T. A., Wright, H. E., Borodavko, P. S., van der Knaap, W. O., and Ammann, V. 2004. Late Glacial and Holocene Vegetational Changes on the Ulagan High-Mountain Plateau, Altai Mountains, Southern Siberia. Palaeogeography, Palaeoclimatology, Palaeoecology 209: 259279.CrossRefGoogle Scholar
Blyakharchuyk, T. A., Wright, H. E., Borodavko, P. S., van der Knaap, W. O., and Ammann, V. 2007. Late Glacial and Holocene Vegetational History of the Altai Mountains (Southwestern Tuva Republic, Siberia). Palaeogeography, Palaeoclimatology, Palaeoecology 245: 518534.CrossRefGoogle Scholar
Deng, T. 2006. The Fossils of the Przewalski’s Horse and the Climatic Variation of the Late Pleistocene of China. In: Maskour, M. (Ed.), Equids in Time and Space (Proceedings of the 9th Icaz Conference). Oxbow Books, Oxford, pp. 1219.Google Scholar
Derevianko, Anatoly P., Roger Powers, W, and Shimkin, Demitri B., eds. 1998. The Paleolithic of Siberia. IAE-Siberian Division, Russian Academy of Sciences, Novosibirsk; University of Illinois Press, Urbana and Chicago.Google Scholar
Foronova, Irina V. 2006. Late Quaternary Equids (Genus Equus) of South-Western and South-Central Siberia. In: Mashkour, Marjan (Ed.), Equids in Time and Space. Oxbow Books, Oxford, pp. 2030.Google Scholar
Gaunitz, Charleen, Fages, Antoine, Hanghøj, Kristian, et al. 2018. Ancient Genomes Revisit the Ancestry of Domestic and Przewalski’s Horses. Science 360: 111114.CrossRefGoogle ScholarPubMed
Gibbon, Guy. 2017. The Science of Rock Art Research. In: David, Bruno, and McNiven, Ian J. (Eds.), The Oxford Handbook of the Archaeology and Anthropology of Rock Art. Oxford Handbooks Online, Oxford, 24 pp.Google Scholar
Goebel, Ted. 1999. Pleistocene Human Colonization of Siberia and Peopling of the Americas: An Ecological Approach. Evolutionary Anthropology 8, 6: 208227.3.0.CO;2-M>CrossRefGoogle Scholar
Grunert, Jörg, Lehmkuhl, Frank, and Walther, Michael. 2000. Paleoclimatic Evolution of the Uvs Nuur Basin and Adjacent Areas (Western Mongolia). Quaternary International 65/66: 171192.CrossRefGoogle Scholar
Gryaznov, M. P. 1961. Drevneyshiye pamyatniki geroicheskogo eposa yuzhnoy Sibiri. Arkheologicheskii Spornik 3: 731.Google Scholar
Gunin, P. D., Vostokova, E. A., Dorofeyuk, N. I., Tarasov, P. E., and Black, C. C.. 1999. Vegetation Dynamics of Mongolia. Kluwer Academic Publishers, Dordrecht.CrossRefGoogle Scholar
Guthrie, R. D. 2001. Origin and Causes of the Mammoth Steppe: A Story of Cloud Cover, Woolly Mammal Tooth Pits, Buckles, and Inside-Out Beringia. Quaternary Science Reviews 20: 549574.Google Scholar
Helskog, Knut. 2014. Communicating with the World of Beings. Oxbow Books, Oxford.CrossRefGoogle Scholar
Herren, Pierre-Alain, Eichler, Anja, Machguth, Horst, et al. 2013. The Onset of Neoglaciation 6000 Years Ago in Western Mongolia Revealed by an Ice Core from Tsambagarav Mountain Range. Quaternary Science Reviews 69: 5968.CrossRefGoogle Scholar
Herzshuh, Ulrike. 2005. Palaeo-moisture Evolution in Monsoonal Central Asia during the last 50,000 Years. Quaternary Science Reviews 25, 163178.CrossRefGoogle Scholar
Jacobson, E. 1993. The Deer Goddess of Ancient Siberia. A Study in the Ecology of Belief. E. J. Brill, Leiden.Google Scholar
Jacobson, E. 1994. Turu-Alty (Analysis of a Siberian ‘Sanctuary’) (with V. D. Kubarev). Altaica 1994, 4: 1829.Google Scholar
Jacobson, E., Kubarev, V. D., and Tseveendorj, D. 2001. Mongolie du Nord-Ouest: Tsagaan Salaa/Baga Oigor. Répertoire des Pétroglyphes d’Asie central, Fascicule no. 6. 2 vols. De Boccard, Paris.Google Scholar
Jacobson-Tepfer, E. 2015. The Hunter, the Stag, and the Mother of Animals. Oxford University Press, Oxford.Google Scholar
Jacobson-Tepfer, E. 2019. The Life of Two Valleys in the Bronze Age: Rock Art in the Mongolian Altai. Eugene, Oregon: Luminaire Press.Google Scholar
Jacobson-Tepfer, E., Kubarev, V. D., and Tseveendorj, D. 2006. Mongolie du Nord-Ourest. Haut Tsagaan Gol. Répertoire des Pétroglyphes d’Asie central, Fascicule no. 7. 2 vols. De Boccard, Paris.Google Scholar
Jacobson-Tepfer, E., and Meacham, James. 2016. The Sacred Mountain Shiveet Khairkhan (Bayan Ölgiy aimag, Mongolia) and the Centering of Cultural Indicators in the Age of Nomadic Pastoralism. Annals of the American Association of Geographers 2016: 112.Google Scholar
Jacobson-Tepfer, E., Meacham, James, and Tepfer, Gary. 2010. Archaeology and Landscape in the Mongolian Altai: An Atlas. ESRI Press, Redlands, CA.Google Scholar
Janz, Lisa, Elston, Robert G, and Burr George, S. 2009. Dating North Asian Surface Assemblages with Ostrich Eggshell: Implications for Palaeoecology and Extirpation. Journal of Archaeological Science 36, 9: 19821989.Google Scholar
Janz, Lisa, Odsuren, D, and Bukhchuluun, D. 2017. Transitions in Palaeoecology and Technology: Hunter-Gatherers and Early Herders in the Gobi Desert. Journal of World Prehistory 30:180.CrossRefGoogle Scholar
Jones, Andrew Meirion, Freeman, Davina, O’Connor, Blaze, Lamdin-Whymark, Hugo, Tipping, Richard, and Watson, Aaron. 2011. An Animate Landscape: Rock Art and the Prehistory of Kilmartin, Argyll, Scotland. Oxford: Windgather Press.CrossRefGoogle Scholar
Kortum, D. Richard. 2018. Ceremony in Stone. Nepko Publishing, Ulaanbaatar.Google Scholar
Kovalev, A. A. ed. 2015. Drevneishie Evropeitsy v Serdtse Azii: Chemurchekskii Kul’turnyi Fenomen. Part II. St. Petersburg State Museum, St. Petersburg.Google Scholar
Kuzmin, Yaroslav. 2010. Extinction of the Woolly Mammoth (Mammuthus primigenius) and Wooly Rhinoceros (Coelodonta antiquitatis) in Eurasia: Review of Chronological and Environmental Issues. Boreas 39: 247261.CrossRefGoogle Scholar
Leslie, David M., Jr., and Schaller, George B.. 2009. Bos grunniens and Bos mutus (Artiodactyla: Bovidae), Mammalian Species 836: 117.CrossRefGoogle Scholar
MAIC (Mongolian Altai Inventory Collection). Digital Collections, University of Oregon Libraries. https://oregondigital.org/sets/maic.Google Scholar
Martin, Paul S. 1982. The Pattern and Meaning of Holoarctic Mammoth Extinction. In: Hopkins, David (Ed.), Paleoecology of Beringia. Academic Press, New York, London, pp. 399408.CrossRefGoogle Scholar
Miehe, Georg, Schlütz, Frank, Miehe, Sabine, et al. 2007. Mountain Forest Islands and Holocene Environmental Changes in Central Asia: A Case Study from the Southern Gobi Altay, Mongolia. Palaeogeography, Palaeoclimatology, Palaeoecology 250: 150166.CrossRefGoogle Scholar
Müller-Beck, H. 1982. Late Pleistocene Man in Northern Alaska and the Mammoth-Steppe Biome. In Hopkins, David (Ed.), Paleoecology of Beringia. Academic Press, New York, London, pp. 329352.Google Scholar
Okladnikov, A. P. 1959. Shishkinskiye pisanitsy, pamyatnik drevney kul’tury Pribaykal’ya. Irkutskoye knizhnoye izd-vo, Moscow.Google Scholar
Okladnikov, A. P. 1972. Tsentral’noasiatskiy ochag pervobytnogo iskusstva. Nauka, Novosibirsk.Google Scholar
Okladnikov, A. P. 1981. Petroglify Chulutyn-Gola (Mongoliya). Nauka, Novosibirsk.Google Scholar
Okladnikov, A. P., Okladnikova, Ye. A., Zaparozhskaya, V. D., and Skorynina, Ye. A.. 1979. Petroglify doliny reki Yelangash. Nauka, Novosibirsk.Google Scholar
Okladnikov, A. P., Okladnikova, Ye. A., Zaparozhskaya, V. D., and Skorina, Ye. A.. 1980. Petroglify Gornogo Altaya. Novosibirsk: Nauka.Google Scholar
Okladnikov, A. P., Okladnikova, Ye. A., Zaparozhskaya, V. D., and Skorina, Ye. A.. 1982. Petroglify urochishcha Sary-Sartak. Novosibirsk: Nauka.Google Scholar
Orlova, Lyobov A., Kuzmin, Yaroslav V., and Demenitev, Vyacheslav N.. 2004. A Review of the Evidence for Extinction Chronologies for Five Species of Upper Pleistocene Megafauna in Siberia. Radiocarbon 46, 1: 301314.CrossRefGoogle Scholar
Rhode, David, Madsen, David B., Jeffrey Brantingham, P, and Dargye, Tsultrim. 2007. Yaks, Yak Dung, and Prehistoric Human Habitation of the Tibetan Plateau. In: Madsen, D. B., Chen, F. H., and Gao, X. (Eds.), Late Quaternary Climate Change and Human Adaptation in Arid China. Amsterdam, Boston, London: Elsevier. Developments in Quaternary Science, Vol. 9, pp. 205224.CrossRefGoogle Scholar
Roberts, Richard G. 2017. Optical Dating of Rock Art. In: David, Bruno, and McNiven, Ian J. (Eds.), The Oxford Handbook of the Archaeology and Anthropology of Rock Art. Oxford Handbooks Online, Oxford.Google Scholar
Rudaya, Natalia, Tarasov, Pavel, Dorofeyuk, Nadezhda, et al. 2009. Holocene Environments and Climate in the Mongolian Altai Reconstructed from the Hoton-Nur Pollen and Diatom Records: A Step towards Better Understanding Climate Dynamics in Central Asia. Quaternary Science Reviews 28: 540554.CrossRefGoogle Scholar
Sapozhnikov, V. V. 1949. Po Russkomu i Mongol’skomu Altayu. Obruchev, V. V., ed. State Geographical Literature, Moscow.Google Scholar
Shahgedanova, Maria, Mikhailov, Nikolay, Larin, Sergey, and Bredikhin, Aleksandr. 2002. The Mountains of Southern Siberia. In: Shahgedanov, Maria (Ed.), The Physical Geography of Northern Eurasia. Oxford University Press, Oxford, pp. 314349.Google Scholar
Tarasov, P., Dorofeyuk, N, and Metel’tseva, E. 2000. Holocene Vegetation and Climate Changes in Hoton-Nuur Basin, Northwest Mongolia. Boreas 29: 117126.Google Scholar
Tarasov, P., Jolly, D, and Kaplan, J. O.. 1997. A Continuous Late Glacial and Holocene Record of Vegetation Changes in Kazakhstan. Palaeogeography, Palaeoclimatology, Palaeoecology 136: 281292.CrossRefGoogle Scholar
Tseveendorzh, D., Kubarev, V. D., and Yakobson (Jacobson), E. 2005. Aral Tolgoin Khadny Zurag. Institute of Archaology, Mongolian Academy of Sciences, Ulaanbaatar.Google Scholar
Vartanyan, S. L., Garutt, V. E., and Sher, A. V.. 1993. Holocene Dwarf Mammoths from Wrangel Island in the Siberian Arctic. Nature 262: 337340.CrossRefGoogle Scholar
Velichko, A. A., Wright, H. E., Barnofsky, C. W., eds. 1984. Late Quaternary Environments of the Soviet Union. University of Minnesota Press, Minneapolis.Google Scholar
Velichko, A. A., and Zelikson, E. M.. 2005. Landscape, Climate and Mammoth Food Resources in the East European Plain during the Late Paleolithic Epoch. Quaternary International 126128: 137151.Google Scholar
Vershchagin, N. K., and Baryshnikov, G. F.. 1982. Paleoecology of the Mammoth Fauna in the Eurasian Arctic. In: Hopkins, David (Ed.), Paleoecology of Beringia. Academic Press, New York, London, pp. 267279.CrossRefGoogle Scholar
Wallace, V. A. 2015. Buddhist Sacred Mountains, Auspicious Landscapes, and Their Agency. In Wallace, V. A. (Ed.), Buddhism in Mongolian History, Culture, and Society. Oxford University Press, Oxford, pp. 221240.CrossRefGoogle Scholar
Zhao, Y., Yu, Z, Chen, F.-H., and An, C. 2007. Holocene Vegetation and Climate Changes from Fossil Pollen Records in Arid and Semi-arid China. In: Madsen, D. B., Chen, F. H., and Gao, X. (Eds.), Late Quaternary Climate Change and Human Adaptation in Arid China. Amsterdam, Boston, London: Elsevier. Developments in Quaternary Science, Vol. 9, pp. 5165.CrossRefGoogle Scholar

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