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Conference Proceedings of the 12th International Conference “Methods of Absolute Chronology” May 11-13th, 2016, Gliwice-Paniówki, Poland.
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Abstrakty
Geomorphological evidence of at least two Pleistocene glacial epochsis noted within the Chagan-Uzun river basin, SE Altai. A review and analysis of all available absolute dates for reference Chagan section is presented. The highest correlation amongst all TL dates is observed for the lens of glacio-lacustrine sediments – the most suitable among glacial deposits for luminescence dating, and indicates its possible Middle Pleistocene age. IRSL dates obtained from feldspar indicate a Middle Pleistocene age of moraines already in the upper part of the section. The small number of obtained IRSL dates does not allow making geochronological reconstructions of the Pleistocene glaciations, but gives the possibility for further experiments with different variation of OSL (IRSL) techniques. Strong low temperature peak in TL signal and strong response to IR stimulation are specific regional quartz features, which could be explained by combination of short transportation distance and low number of depositional cycles for mineral grains. Available radiocarbon dates of carbonate concretions from this section are not related to the age of moraine sedimentation and most likely indicate the period of the Chagan river incision into the ancient glacial deposits. This study has shown that TL method is not valid for dating glacial sediments and TL dates cannot be utilized as chronostratigraphic markers. Generally, the Chagan section could hardly serve as a reference section for the Altai stratigraphy; available depositional correlation schemes for the Russian Altai and Siberia which are based on several TL dates obtained in the last century needs to be improved.
Wydawca
Czasopismo
Rocznik
Tom
Strony
49--65
Opis fizyczny
Bibliogr. 92 poz., rys.
Twórcy
autor
- Sobolev Institute of Geology and Mineralogy, Russia, 630090 Novosibirsk, Ak. Koptyuga av., 3
autor
- Ural Federal University, Russia, 620002 Yekaterinburg, Mira str., 19
Bibliografia
- 1. Afanas’ev SL, 1990. Nanocyklitny metod opredelenija geologicheskogo vozrasta chetvertichnyh otlozhenij (Nanocycle technique of the geological age determination for Quaternary deposits). Novosibirsk, Nauka SO RAN Publisher: 123pp (in Russian).
- 2. Agatova AR, 2003. Oledenenija i activnaja tektonika: ih vzaimosvjaz’ na territorii yugo-vostochnogo Altaja (Glaciations and active tectonic: their interconnection within the Southeastern Altai). Izvestija Russkogo Geograficheskogo Obschestva 135(5): 16–22 (in Russian).
- 3. Agatova AR, 2005a. Tectonic control of the Pleistocene glacial sedimentation in the Altai mountains (orogenic belt of South Siberia). Geophysical Research Abstracts 7, EGU2005-07922.
- 4. Agatova AR, 2005b. Geomorphologic mapping of the Chagan-Uzun river basin: a reference for reconstructing history of Pleistocene glaciations in the Southeastern Altai. Stratigraphy and Geological Correlation 13(6): 656–666.
- 5. Agatova AR, Novikov IS, Vysotsky EM and Gibsher AS, 2004. Geomorfologicheskie effekty zemletrjasenij 27 sentjabrja i 1 oktjabrja v Gornom Altae (Geomorphological effects from 27.09.2003 and 01.10.2003 earthquakes in Gorny Altai)). Geomorfologiya 3: 3–12 (in Russian).
- 6. Agatova AR, Nepop RK and Vysotsky EM, 2006. Seismogravitacionnye paleodislokacii v doline reki Chagan (Yugo-Vostochnyj Altai, Rossija) (Seismogravitational paleodislocations in Chagan river valley (SE Altai, Russia)). Geomorfologiya 4: 53–62 (in Russian).
- 7. Agatova AR, Nazarov AN, Nepop RK and Rodnight H, 2012. Holocene glacier fluctuations and climate changes in the southeastern part of the Russian Altai (South Siberia) based on a radiocarbon chronology. Quaternary Science Reviews 43: 74–93, DOI 10.1016/j.quascirev.2012.04.012.
- 8. Agatova AR, Nepop RK and Rodnight H, 2014. On the problems of correlating the Pleistocene glacial deposits in Russian Altai with Siberian stratigraphic scales. In: Rocha R, Pais J, Kullberg JC and Finney S, eds., STRATI 2013 First International Congress on Stratigraphy At the Cutting Edge of Stratigraphy. Springer. 903–907. ISBN: 978-3-319-04363-0.
- 9. Agatova AR, Nepop RK, Bronnikova MA, Slyusarenko IYu and Orlova LA, 2016. Human occupation of South Eastern Altai highlands (Russia) in the context of environmental changes. Archaeological and Anthropological Sciences 8: 419–440, DOI 10.1007/s12520- 014-0202-7.
- 10. Aitken MJ, 1985. Thermoluminescence Dating. London, Academic Press: 359pp.
- 11. Aitken MJ, 1990. Science-Based Dating in Archaeology. London, Longman: 359pp.
- 12.Aitken MJ, 1998. An Introduction to Optical Dating. Oxford, Oxford University Press: 267pp.
- 13. Arhipov SA, Devyatkin EV and Shelkoplyas VN, 1982. Correljacija chetvertichnyh otlozhenij Yuzhnoj Sibiri, Gornogo i Mongol’skogo Altaja, Vostochnoj i Zapadnoj Mongolii. Problemy stratigrafii i paleogeografii pleistocena Sibiri (Correlation of Quaternary deposits of Southern Siberia, Gorny and Mongolian Altai, Eastern and Western Mongolia. Problems of the Pleistocene stratigraphy and paleogeography of Siberia). Proceedings of the IGG SO AN SSSR, Novosibirsk: 149–161 (in Russian).
- 14. Baryshnikov G, 1992. Razvitie reljefa perehodnyh zon gornyh stran v kajnozoe (na primere Gornogo Altaja) (Cenozoic landscape development in transitional zones of orogens (by the example of Gorny Altai). Tomsk, Tomsk University Press: 182pp (in Russian).
- 15. Baryshnikov G, Panin A and Adamiec G, 2015. Geochronology of the late Pleistocene catastrophic Biya debris flow and the Lake Teletskoye formation, Altai Region, Southern Siberia. International Geology Review DOI: 10.1080/00206814.2015.1062733.
- 16. Benn DI and Owen LA, 2002. Himalayan glacial sedimentary environments: A framework for reconstructing and dating the former extent of glaciers in high mountains. Quaternary International 97– 98: 3–25, DOI 10.1016/S1040-6182(02)00048-4.
- 17. Bogachkin BM, 1981. Istoriya tektonicheskogo razvitiya Gornogo Altaya v kajnozoe (The history of the Cenozoic tectonic development of Gorny Altai). Moscow, Nauka: 132pp (in Russian).
- 18. Borisov BA, 1984. Altae-Sajanskaja gornaja oblast’ (Altai-Sayan Mountain province). Stratigraphy of the USSR. Quaternary system. Moscow, Nedra: 331–351pp (in Russian).
- 19. Bowman S, 1995. Radiocarbon Dating. London, British Museum Press: 64pp.
- 20. Butvilovsky VV, 1993. Paleogeografiya poslednego oledenenija i golocena Altaja: Sobytijno-Katastroficheskaja model’ (Paleogeography of the Last Glaciation and the Holocene of Altai: a Catastrophic Events Model). Tomsk, Tomsk University Press: 253pp (in Russian).
- 21. Butvilovsky VV, Panychev VA and Lammert AK, 1991. O vozraste, morfologii i istorii razvitija poslednego oledenenija Vostochnogo Altaja (Age, morphology and history of development of the last glaciation of Eastern Altai). Materialy Glaciologicheskih Issledovanij 73: 36–43 (in Russian).
- 22. Butvilovsky VV, Butvilovskaya TV and Avvakumov AE, 1996. Sostavlenie geomorfologicheskoj karty Gornogo Altaja masshtaba(1:500000). Otchet regional’noj partii o rezul’tatah NIR, provedennyh v 1989–1996 godah (Geomorphological mapping of Gorny Altai. Report of the regional geological group on the scientific researches carried out in 1989–1996). Novokuznetck, State registration number 13-89-106/1 (in Russian).
- 23. Buylaert JP, Murray AS, Thomsen KJ and Jain M, 2009. Testing the potential of an elevated temperature IRSL signal from K-feldspar. Radiation Measurements 44: 560–565, DOI 10.1016/j.radmeas.2009.02.007.
- 24. Carling PA, Kirkbride AD, Parnachev S, Borodavko PS and Berger GW, 2002. Late Quaternary catastrophic flooding in the Altai Mountains of south–central Siberia: A synoptic overview and introduction to flood deposit sedimentology. In: Martini IP, Baker VR and Garzón G, eds., Flood and Megaflood Processes and Deposits: Recent and Ancient Examples. International Association of Sedimentologists, Special Publication 32: 17–35.
- 25. Cunningham WD, Windley BF, Dorjnamjaa D, Badamgarov J and Saandar M, 1996. Late Cenozoic transpression in southwestern Mongolia and the Gobi Altai-Tien Shan connection. Earth and Planetary Science Letters 140: 67–81, DOI 10.1016/0012- 821X(96)00048-9.
- 26. Derevyanko AP and Molodin VI, 2000. Fenomen Altajskih mumij (Phenomenon of Altai Mummies). Novosibirsk, Publishing House of the Institute of Archaeology and Ethnography, SB RAS: 320pp (in Russian).
- 27. Devyatkin EV, 1965. Kajnozojskie otlozhenija I neotektonika Yugovostochnogo Altaja (Cenozoic deposits and neotectonics of Southeastern Altai). Moscow, USSR Academy of Science: 244pp (In Russian).
- 28. Efimtcev NA, 1961. Chetvertichoe oledenenie zapadnoj Tuvy i vostochnoj chasti Gornogo Altaja (Quaternary glaciation of western Tyva and eastern part of Gorny Altai). Moscow, USSR Academy of Science Publisher: 163pp (in Russian).
- 29. Fuchs M and Owen LA, 2008. Luminescence dating of glacial and associated sediments: review, recommendation and future directions. Boreas 37: 636–659, DOI 10.1111/j.1502- 3885.2008.00052.x.
- 30. Faustov SS, Kulikov OA and Svitoch AA, 1971. Paleomagnitnye issledovanija novejshih otlozhenij v doline reki Chagan (Paleomagnetic studies of new deposits in the Chagan river valley). In: Zubakov VA and Suzdalskiy OV eds., Problems of correlating new deposits of the northern Eurasia, Leningrad, Russian Geographical Society Publisher: 74–77 (in Russian).
- 31. Galakhov VP and Samoylova SYu, 2007. Oledenenie hrebta Sajljugem (YuV Altai) vo vremja maksimuma poslednego oledenenija (Glaciations of the Sailjugem range (SE Altai) during the maximum of the Last Glacial). Prirodnye resursy Gornogo Altaja 2: 36–38 (In Russian).
- 32. Gemmell AMD, 1997. Fluctuations in the thermoluminescence signal of suspended sediment in an alpine glacial meltwater stream. Quaternary Science Reviews 16: 281–290, DOI 10.1016/S0277- 3791(96)00087-X.
- 33. Gemmell AMD, 1999. IRSL from fine-grained glaciofluvial sediment. Quaternary Science Reviews 18: 207–215, DOI 10.1016/S0277- 3791(98)00053-5.
- 34. Glushankova NI and Voskresenskaja TN, 2008. Rekonstrukcija paleoobstanovok pleistocenovogo sedimentogeneza v prilednikovyh vodoemah Gornogo Altaja (Paleoenvironmental reconstructions of the Pleistocene sedimentation in the periglacial lakes of Gorny Altai). Izvestija Russkogo Geograficheskogo Obschestva 140(2): 49–57 (in Russian).
- 35. Godfrey-Smith DI, Huntley DJ and Chen WH, 1988. Optical dating studies of quartz and feldspar sediment extracts. Quaternary Science Reviews 7: 373–380, DOI 10.1016/0277-3791(88)90032-7.
- 36. Gribenski N, Blomdin RL, Caffee MW, Gaar D, Harbor JM, Hättestrand C, Heyman J, Ivanov MN, Jansson K, Lifton NA, Lowick S, Orkhonselenge A, Petrakov D, Preusser F, Rogozhina I, Rudoy A, Stroeven AP, Trauerstein M, Zhang W and Zhao JD, 2014. Comparison of different methods for dating glacial features in Central Asia. Geophysical Research Abstracts. Vol. 16, EGU2014- 8023.
- 37. Gribenski N, Jansson KN, Lukas S, Stroeven AP, Harbor JM, Blomdin R, Ivanov MN, Heyman J, Petrakov DA, Rudoy A, Clifton T, Lifton NA and Caffee MW, 2016. Complex patterns of glacier advances during the late glacial in the Chagan Uzun Valley, Russian Altai. Quaternary Science Reviews 149: 288–305, DOI 10.1016/j.quascirev.2016.07.032.
- 38. Herget J, 2005. Reconstruction of Pleistocene Ice-dammed Lake Outburst Floods in Altai-mountains, Siberia. Geological Society of America, Special Publication 386: 118pp.
- 39. Il’ichev VA, Kulikov OA and Faustov SS, 1973. Novye dannye paleomagnitnyh i termoljuminescentnyh issledovanij otlozhenij razreza Chagan (Gornyj Altai) (New data of paleomagnetic and thermoluminescent researches of deposits in the Chagan section (Gorny Altai)). In: Zubakov VA, ed., The Pleistocene chronology and climatic stratigraphy. Leningrad, Geographical Society of USSR: 252–257 (in Russian).
- 40. Ivanovsky LN, 1956. Ob osobennostjah drevnego oledenenija YugoVostochnogo Altaja (About the features of ancient glaciation of the Southeastern Altai). Proceedings of Tomsk State University 133: 149–155 (in Russian).
- 41. Ivanovsky LN, 1967. Formy lednikovogo reljefa i ih paleogeograficheskoe znachenie na Altae (Glacial landforms and their paleogeographical significance in the Altai). Leningrad, Nauka: 263pp (in Russian).
- 42. Lehmkuhl F, Zander A and Frechen M, 2007. Luminescence chronology of fluvial and aeolian deposits in the Russian Altai (Southern Siberia). Quaternary Geochronology 2: 195–201, DOI 10.1016/j.quageo.2006.04.005.
- 43. Lehmkuhl F, Klinge M and Stauch G, 2011. The Extent and Timing of Late Pleistocene Glaciations in the Altai and Neighboring Mountain Systems. In: Ehlers J, Gibbard PL and Hughes PD, eds., Quaternary Glaciations - Extent and Chronology. A Closer Look. Amsterdam, Elsevier: 967–979.
- 44. Lin JC, Broecker WS, Anderson RF, Hemming S, Rubenstone JN and Bonani G, 1996. New 230Th/U and 14C ages from Lake Lahontan carbonates, Nevada, USA, and a discussion of the origin of initial thorium. Geochimica et Cosmochimica Acta 60(15): 2817–2832, DOI 10.1016/0016-7037(96)00136-6.
- 45. Mikhailova IV, Khazin LB and Agatova AR, 2004. Issledovanie vozmozhnostej palinologicheskogo i mikrofaunisticheskogo metodov v raschlenenii lednikovyh i vodno-lednikovyh otlozhenij gornyh stran (na primere Altaja) (Studying the opportunities of palinological and microfauna methods of separating glacial and glacial-fluvial deposits within mountain provinces (by the example of Altai)). Proceedings of the XXVIII Plenum of Geomorphological Commission, Russian Academy of Science, Novosibirsk, IG SB RAS: 188–190 (in Russian).
- 46. Molnar P and Tapponnie P, 1975. Cenozoic tectonics of Asia: Effects of a continental collision. Science 189: 419–426, DOI 10.1126/science.189.4201.419.
- 47. Narama C, Kondo R, Tsukamoto S, Kajiura T, Ormukov C and Abdrakhmatov K, 2007. OSL dating of glacial deposits during the Last Glacial in the Terskey-Alatoo Range, Kyrgyz Republic. Quaternary Geochronology 2: 249–254, DOI 10.1016/j.quageo.2006.06.007.
- 48. Novikov IS, 2004. Morfotektonika Altaja (Morphotectonics of the Altai Mountains). Novosibirsk, SO RAN Publisher, “Geo” Brunch: 313pp (in Russian).
- 49. Novikov IS, Vysotsky EM and Agatova AR, 2004. Neotectonic Type Structure of Contraction, Shear, and Extension of the Northern Part of Great Altai. Russian Geology and Geophysics 45(11): 1248–1258.
- 50. Okishev PA, 1982. Dinamika oledenenija Altaja v pozdnem Pleistocene i golocene (The Dynamics of Glaciation in Altai during the Late Pleistocene and Holocene). Tomsk, Tomsk University Press: 210pp (in Russian).
- 51. Okishev PA, 1987. K voprosu o razmerah srednepleistocenovogo oledenenija Altaja (To the question of the size of the Middle Pleistocene glaciation in Altai). Voprosy geografii Sibiri 17: 3–12 (in Russian).
- 52. Okishev PA, 2011. Reljef i oledenenie Russkogo Altaja (Relief and glaciation of Russian Altai). Tomsk, Tomsk University Press: 382pp (in Russian).
- 53. Perevalov AV and Rezanov IN, 1997. Pervyj opyt radiotermoljuminescentnogo datirovanija antropogenovyh otlojenij zapadnogo Zabaikalia (First attempt of radiothermoluminescence dating of anthropogenic deposits from western Transbaikalia). Russian Geology and Geophysics 38(7): 1245–1251 (in Russian).
- 54. Popov VE, 1972. O vozmozhnosti primenenija geomorfologicheskogo kriterija k opredeleniju vozrasta chetvertichnyh otlozhenij v Chaganskom opornom obnazhenii na Altaje (About the possibility of using geomorphological criteria to determine the age of the Quaternary deposits in the Chagan-Uzun reference section in the Altai). Gljaciologija Altaja 7: 104–114 (in Russian).
- 55. Quaternary System, 2008. Postanovlenija Mezhvedomstvennogo stratigraficheskogo komiteta i ego postojannyh komissij (Resolution of Russian Interdepartmental Stratigraphic Committee and its permanent commissions). St. Petersburg, VSEGEI Publisher, 38: 115–127 (in Russian).
- 56. Raukas A and Stankowski W, 2005. Influence of sedimentological composition on OSL dating of glaciofluvial deposits: eexamples from Estonia. Geological Quarterly 49(4): 463–470.
- 57. Reimer P, Baillie M, Bard E, Bayliss A, Beck J, Blackwell P, Bronk Ramsey C, Buck C, Burr G, Edwards R, Friedrich M, Grootes P, Guilderson T, Hajdas I, Heaton T, Hogg A, Hughen K, Kaiser K, Kromer B, McCormac F, Manning S, Reimer R, Richards D, Southon J, Talamo S, Turney C, Plicht J and Weyhenmeyer C, 2009. IntCal09 and Marine09 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon 51(4): 1111–1150.
- 58. Reuther A, Herget J, Ivy-Ochs S, Borodavko P, Kubik PW and Heine K, 2006. Constraining the timing of the most recent cataclysmic flood event from ice-dammed lakes in the Russian AltaiMountains, Siberia, using cosmogenic in situ 10Be. Geology 34: 913–916, DOI 10.1130/G22755A.1.
- 59. Richards BWM, 2000. Luminescence dating of quaternary sediments in the Himalaya and High Asia: a practical guide to its use and limitations for constraining the timing of glaciation. Quaternary International 65–66: 49–61, DOI 10.1016/S1040-6182(99)00036-1.
- 60. Rudoy AN, 1995. Geomorfologicheskij effect i gidravlika pozdnepleistocenovyh jökulhlaupov lednikovo-podprudnyh ozer Altja (Geomorphological effect and hydraulics of the Late Pleistocene jökulhlaups of the ice-dammed lakes in Altai). Geomorfologija 4: 61–76 (in Russian).
- 61. Rudoy AN, Lysenkova ZV, Rudsky VV and Shishin MY, 2000. Ukok (Proshloe, Nastoyaschee i Budusheee) (Ukok (Past, Present and Future)). Barnaul, Altai State University: 176pp (in Russian).
- 62. Rudoy AN, 2005. Gigantskaja rjab’ techenija (Giant Current Ripples). Tomsk, Tomsk State University: 224pp (in Russian).
- 63. Rudoy AN, 2013. Novye dannye o vozraste lednikovyh i ozernyh otlozhenij v bassejne Teleckogo ozera (New data about the age of the glacial and lacustrine sediments in the Lake Teletskoye basin). Izvestija Russkogo Geograficheskogo Obschestva 1: 36–41 (in Russian).
- 64. Rudoy AN and Kirjanova MR, 1996. Erozionnye terrasy i ekzogennaja geomorfologija Severo-Vostochnogo Sajljugema, bassejn Chujskoj kotloviny, Gorny Altaj (Erosion terraces and exogenous geomorphology of northeastern Sajlyugem, Chuya basin, Gorny Altai). Geomorfologija 1: 87–96 (in Russian).
- 65. Rusanov GG, 2008. Maksimaljnyj uroven’ Chujskogo lednokovopodprudnogo ozera v Gornom Altae (The maximum level of the Chuya glacier-dammed lake in Gorny Altai). Geomorfologija 1: 65–71 (in Russian).
- 66. Rusanov GG, 2009. Osobennosti pozdnevjurmskogo oledenenij bassejna reki Eskongo v Gornom Altae (Peculiarities of Late Wurm glaciation of the Eskongo River basin, Gorny Altai). Izvestija Russkogo Geograficheskogo Obschestva 141(5): 59–64 (in Russian).
- 67. Rusanov GG, 2011. Razrez Chagan (Yugovostochyj Altaj): stroenie i rekonstrukcija uslovij osadkonakoplenija (The Chagan section (Southeastern Altai): structure and reconstruction of the depositional conditions). Izvestija Russkogo Geograficheskogo Obschestva 143(1): 67–72 (in Russian).
- 68. Rusanov GG and Vazhov SV, 2014. Opornye chetvertichnye razrezy Gornogo Altaja (Bele, Kubadru, Chagan) (Reference Quaternary sections of Gorny Altai (Bele, Kubadru, Chagan)). Bijsk, FGBOU VPO “AGAO”: 163pp (in Russian).
- 69. Rusanov GG and Orlova LA, 2013. Radiouglerodnye datirovki (SOAN) Gornogo Altaja i Predaltaiskoj ravniny (Radiocarbon Dates (SOAN) of Gorny Altai and Altai Foreplain). Bijsk, “Biya” Publisher: 163pp (in Russian).
- 70. Rusanov VI, 1961. Raspredelenie srednegodovogo kolichestva osadkov v Central’nom Altae (Distribution of annual precipitation in Central Altai). (Izvestiya Vserossijskogo geologicheskogo obshchestva 93(6): 272–283 (in Russian).
- 71. Selegey VV and Selegey T., 1978. Teleckoe ozero (Lake Teletskoe). Leningrad, Gidrometeoizdat: 143pp (In Russian).
- 72. Sheinkman VS, 1990. Pleistocenovoe oledenenie gor Sibiri: analiz i novye dannye (Pleistocene glaciations of mountains of Siberia: analysis and new data). Materialy of Glaciologicheskih Issledovanij 69: 78–85 (in Russian).
- 73. Sheinkman VS, 2002. Testirovanie SS tehnologii termoluminescentnogo datirovanija na razrezah mertvogo morja, ee ispol’zovanie v Gornom Altae i paleogeograficheskaja interpretacija rezul’tatov (Testing the S-S technique of TL dating on the Dead Sea sections, its use in the Altai Mountains and palaeogeographic interpretation of results). Arheologija, Etnografija i Antropologija Evrasii 2(10): 22–37 (in Russian).
- 74. Shlukov AI, Usova MG, Shakhovets SA and Voskovskaya LT, 1997. New techniques of absolute dating of Quaternary sediments. World wide web http://www.aha.ru/~shlukov/method.htm
- 75. Stroeven AP and the Central Asia Paleoglaciology Project (CAPP) Team, 2015. Spatial and temporal patterns of paleoglaciation across eastern Tibet and Central Asia. Geophysical Research Abstracts 17: EGU2015-14538.
- 76. Stuiver M and Reimer PJ, 1993. Extended C-14 data-base and revised calib 3.0 C-14 age calibration program.
- 77. Svitoch AA, Boyarskaya TD, Voskresenskaya TN, Glushakova II, Evseev AV, Kursalova VI, Parmonova NN, Faustov SS and Khorev VS, 1978. Razrez novejshih otlozhenij Altaja (The sections of the latest deposits of Altai). Moscow, MSU Publisher: 208pp (in Russian).
- 78. Thomsen KJ, Murray AS, Jain M and Bøtter-Jensen, 2008. Laboratory fading rates of various luminescence signals from feldspar-rich sediment extracts. Radiation Measurements 43: 1474–1486, DOI 10.1016/j.radmeas.2008.06.002.
- 79. Tsukamoto S, Asahi K, Watanabe T and Rink WJ, 2002. Timing of past glaciations in Kanchenjunga Himal, Nepal by optically stimulated luminescence dating of tills. Quaternary International 97–98: 57– 67, DOI 10.1016/S1040-6182(02)00051-4.
- 80. Vlasov VK and Kulikov OA, 1989. Radiothermoluminescence Dating and Applications to Pleistocene Sediments. Physics and Chemistry of Minerals, 16: 551–558, DOI 10.1007/BF00202210.
- 81. Volkova VS and Babushkin AE, 2000. Unificirovannaja regional’naja ctratigraficheskaja shema chetvertichnyh otlozhenij ZapadnoSibirskoj Platformy (Unified regional stratigraphic scheme of Quaternary deposits of the West Siberian Plain). Novosibirsk, SNIIGGiMS: 64pp (in Russian).
- 82. Volkova VS, Borisov BA and Kamaletdinov VA, 2010. Unificirovannaja regional’naja ctratigraficheskaja shema chetvertichnyh ot lozhenij Srednej Sibiri (Taymyr, Sibirskaja Platforma) (Unified regional stratigraphic scheme of Quaternary deposits of the middle Siberia (Taymyr, Siberian platform)). Novosibirsk, SNIIGGiMS: 90pp (in Russian).
- 83. Vysotsky EM, 2003. Gljacial’naja geomorfologija obramlenija Teleckogo ozera (Glacial geomorphology of framing area of the Teletskoye Lake). Geomorfologija 3: 44–54 (in Russian).
- 84. Ufimtsev GF, 2002. Morfotectonica Eurasii (Morphotectonic of Eurasia). Irkutsk, Irkutsk State University: 494pp (in Russian).
- 85. Wagner GA, 1998. Age Determination of Young Rocks and Artifacts. Berlin Heidelberg, Springer: 466pp.
- 86. Yarmolyuk VV and Kuzmin MI, 2006. Correlation of the Late Cenozoic endogenic events and climatic variation in Central Asia. Stratigraphy and Geological Correlation 14(2): 105–125, DOI 10.1134/S0869593806020018.
- 87. Zhamoida AI, 2006. Stratigraficheskij kodeks Rossii (Stratigraphic Code of Russia). SPb.: VSEGEI Press: 96pp (in Russian).
- 88. Zhao J, Yin X, Harbor JM, Lai Z, Liu S and Li Z, 2013. Quaternary glacial chronology of the Kanas river valley, Altai mountains, China. Quaternary International 311: 44–53, DOI 10.1016/j.quaint.2013.07.047.
- 89. Zol’nikov ID and Mistrukov AA, 2008. Chetvertichnye otlozhenija i rel’ef dolin Chui i Katuni (Quaternary deposits and relief of the Chuya and Katun valleys). Novosibirsk, Parallel: 182pp (in Russian).
- 90. Zol’nikov ID, Deev EV and Lyamina VA, 2010. New data on Quaternary morpholithogenesis in the Chuya basin (Gorny Altai). Russian Geology and Geophysics 51: 339–348, DOI 10.1016/j.rgg.2010.03.002.
- 91. Zol’nikov ID, Deev EV, Kotler SA, Rusanov GG and Nazarov DV, 2016. New results of OSL dating of Quaternary sediments in the Upper Katun valley (Gorny Altai) and adjacent area. Russian Geology and Geophysics 57(6): 933–943, DOI 10.1016/j.rgg.2015.09.022.
- 92. Zykin VS, Zykina VS and Smolyaninova LG, 2016. New data on the most ancient early Quaternary glaciation in Gorny Altai. Doklady Earth Sciences 466(1): 20–23, DOI 10.1134/S1028334X16010244.
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