Sayan Mountains
The Sayan Mountains' towering peaks and cool lakes southwest of Tuva give rise to the tributaries that merge to become one of Siberia's major rivers, the Yenisei River, which flows north over 3,400 kilometres (2000 mi) to the Arctic Ocean. This is a protected and isolated area, having been kept closed by the Soviet Union since 1944.
Geography
Western Sayan
At 92°E the Western Sayan system is pierced by the Ulug-Khem (Russian: Улуг-Хем) or Upper Yenisei River, and at 106°, at its eastern extremity, it terminates above the depression of the Selenga-Orkhon Valley. It stretches almost at a right angle to the Western Sayan for 650 km (400 mi) in a roughly northeast/southwest direction between the Shapshal Range of the Eastern Altai in the west and the Abakan Range of the Kuznetsk Alatau in the east. From the Mongolian plateau the ascent is on the whole gentle, but from the plains of Siberia it is much steeper. The range includes a number of subsidiary ranges of an Alpine character, such as the Aradan, Borus, Oy, Kulumys, Mirsky, Kurtushibin, Uyuk, Sheshpir-Taiga, Ergak-Targak-Taiga, Kedran and Nazarovsky ranges. The most important peaks are Kyzlasov Peak (2,969 m (9,741 ft)), Aradansky Peak (2,456 m (8,058 ft)), Bedelig Golets (2,492 m (8,176 ft)), Samzhir (2,402 m (7,881 ft)), Borus (2,318 m (7,605 ft)) and Zvezdny Peak (2,265 m (7,431 ft)).
Between the breach of the Yenisei and Lake Khövsgöl at 100° 30' E. the system bears also the name of Yerghik-Taiga. The flora is on the whole poor, although the higher regions carry good forests of larch, pine, juniper, birch, and alder, with rhododendrons and species of Berberis and Ribes. Lichens and mosses clothe many of the boulders that are scattered over the upper slopes.
Eastern Sayan
The Eastern Sayan stretches almost at a right angle to the Western Sayan for 1,000 km (620 mi) in a northwest/southeast direction, from the Yenisei to the Angara Range. Some subranges of the northwest form a system of "White Mountains" (Белогорье) or "Belki", such as Manskoye Belogorye, Kanskoye Belogorye, Kuturchinskoye Belogorye, as well as Agul Belki (Агульские Белки), with permanent snow on the peaks. In the central part, towards the upper reaches of the Kazyr and Kizir rivers, several ridges, such as the Kryzhin Range form a cluster culminating in the 2,982 m (9,783 ft) high Grandiozny Peak, the highest point in Krasnoyarsk Krai.
To the southeast rise the highest and most remote subranges, including the Bolshoy Sayan and Kropotkin Range, as well as "Goltsy" type of mountains, such as the Tunka Goltsy, Kitoy Goltsy, Botogolsky Goltsy, among others. The highest point of the Eastern Sayan, as well as the highest point of the whole Sayan system, 3,491 m (11,453 ft) high Mount Munku-Sardyk, is located in the range of the same name in this area. 2,939 m (9,642 ft) high Pik Tofalariya is the highest point of Irkutsk Oblast. The mountains of the Eastern Sayan characteristically display alpine relief forms. In general, rivers flowing down from the ranges form gorges and there is an abundance of waterfalls in the area.
The Ice Age Period
In this area that currently shows only small cirque glaciers, at glacial times glaciers have flowed down from the 3492 m high Munku Sardyk massif situated west of Lake Baikal and from the 12.100 km extended completely glaciated granite-gneiss plateau (2300 m asl) of the East-Sayan mountains as well as the east-connected 2600 – 3110 m-high summits in the Tunkinskaya Dolina valley, joining to a c. 30 km-wide parent glacier. Its glacier tongue that flowed down to the east, to Lake Baikal, came to an end at 500 m asl (51°48’28.98"N/103°0’29.86"E). The Khamar Daban mountains were covered by a large-scale ice cap filling up the valley relief.
From its valley heads, e.g. the upper Slujanka valley (51°32’N/103°37’E), but also through parallel valleys like the Snirsdaja valley, outlet glaciers flowed to the north to Lake Baikal. The Snirsdaja-valley-outlet glacier has calved, among other outlet glaciers, at c. 400 m asl into Lake Baikal (51°27’N/104°51’E). The glacial (Würm ice age = Last Glacial Period = MIS 2) glacier snowline (ELA) as altitude limit between glacier feeding area and ablation zone has run in these mountains between 1450 and 1250 m asl. This corresponds to a snowline depression of 1500 m against the current height of the snowline. Under the condition of a comparable precipitation ratio there might result from this a glacial depression of the average annual temperature of 7.5 to 9 °C for the Last Ice Age against today.
Origins of reindeer husbandry
According to Sev’yan I. Vainshtein, Sayan reindeer herding, as historically practiced by the Evenks, is "the oldest form of reindeer herding and is associated with the earliest domestication of the reindeer by the Samoyedic taiga population of the Sayan Mountains at the turn of the first millennium A.D."
The Sayan region was apparently the origin of the economic and cultural complex of reindeer hunters-herdsmen that we now see among the various Evenki groups and the peoples of the Sayan area.
The ancestors of modern Evenki groups inhabited areas adjacent to the Sayan Mountains, and it is highly likely that they took part in the process of reindeer domestication along with the Samoyedic population." The local indigenous groups that have retained their traditional lifestyle nowadays live almost exclusively in the area of the Eastern Sayan mountains. However, the local reindeer herding communities were greatly affected by russification and sovietization, with many Evenks losing their traditional lifestyle and groups like the Mator and Kamas peoples being assimilated altogether.
According to Juha Janhunen, and other linguists, the homeland of the Uralic languages is located in South-Central Siberia in the Sayan Mountains region. Meanwhile, Turkologist Peter Benjamin Golden locates the Proto-Turkic Urheimat in the southern taiga-steppe zone of the Sayan-Altay region. Alternatively, the Proto-Uralic homeland is located farther westwards (e.g. in the Volga-Kama region) while the Proto-Turkic homeland is located farther eastwards (e.g. "in the southern fringe of the [Northern Eurasian Greenbelt] in Northeast Asia ... near eastern Mongolia").
Science
The Sayan Solar Observatory is located in these mountains (51°37′18″N 100°55′07″E / 51.62167°N 100.91861°E) at an altitude of 2,000 meters.
See also
- Abakan River
- Ergaki
- Geography of South-Central Siberia
- Lykov family
- Mana River
- Minusinsk Depression
- Tuva Depression
- Altai-Sayan region
Notes
- ^ Vasily Bartold (1935). Vorlesungen uber die Geschichte der Turken Mittelasiens. Vol. 12. Berlin: Deutsche Gesellschaft für Islamkunde. p. 46. OCLC 3673071.
- ^ "Sayan Mountains". Retrieved 2006-12-25.
- ^ "Tuva and Sayan Mountains". Geographic Bureau - Siberia and Pacific. Archived from the original on 2015-11-26. Retrieved 2006-10-26.
- ^ B. C. Bасильев, Ю. M. Mальцев, Б. И. Cуганов, E. H. Черных - Саяны
- ^ "M-45 Chart (in Russian)". Retrieved 7 December 2021.
- ^ Chisholm, Hugh, ed. (1911). . Encyclopædia Britannica. Vol. 24 (11th ed.). Cambridge University Press. p. 276.
- ^ ЭСБЕ/Саянский горный хребет, Энциклопедический словарь Брокгауза и Ефрона : в 86 т. (82 т. и 4 доп.). — СПб., 1890—1907.
- ^ "N-47 Chart (in Russian)". Retrieved 7 December 2021.
- ^ Grosswald, M. G.; Kuhle, M. (1994):Impact of Glaciations on Lake Baikal. International Project on Paleolimnology and Late Cenozoic Climate No. 8. (Eds: Shoji Horie; Kazuhiro Toyoda (IPPCCE)) Universitätsverlag Wagner, Innsbruck, pp. 48–60.
- ^ Kuhle, M. (2004) : 'The High Glacial (Last Ice Age and LGM) glacier cover in High- and Central Asia. Accompanying text to the mapwork in hand with detailed references to the literature of the underlying empirical investigations'. Ehlers, J., Gibbard, P. L. (eds). Extent and Chronology of Glaciations, Vol. 3 (Latin America, Asia, Africa, Australia, Antarctica). Amsterdam, Elsevier B.V., pp. 175-199.
- ^ "Evenki Reindeer Herding: A History", Cultural Survival, retrieved 30 December 2014
- ^ Vainshtein, Sev’yan I. (1971), "The Problem of the Origins of Reindeer Herding in Eurasia, Part II: The Role of the Sayan Center in the Diffusion of Reindeer Herding in Eurasia", Sovetskaya Etnografiya, 5: 37–52
- ^ Forysth, J. (1991). "The Siberian Native Peoples Before and After the Russian Conquest". In Wood, A. (ed.). The History of Siberia: From Russian Conquest to Revolution. London: Routledge. pp. 69–91. ISBN 0-415-05873-2.
- ^ Janhunen, Juha (2009). "Proto-Uralic—what, where, and when?" (PDF). The Quasquicentennial of the Finno-Ugrian Society. Helsinki. pp. 57–78.
{{cite book}}
: CS1 maint: location missing publisher (link) - ^ Dziebel, German (October 2012). "On the Homeland of the Uralic Language Family". Retrieved 2019-03-21.
- ^ Golden, Peter Benjamin (2011). "Ethnogenesis in the tribal zone: The Shaping of the Turks". Studies on the peoples and cultures of the Eurasian steppes. Bucureşti: Ed. Acad. Române. ISBN 978-973-1871-96-7.
- ^ Parpola, A. (2013). "Formation of the Indo-European and Uralic language families in the light of archaeology: Revised and integrated 'total' correlations". In R. Grünthal, & P. Kallio (Eds.), Linguistic map of prehistoric north Europe (pp. 119-184). (Mémoires de la Société Finno-Ougrienne; Vol. 266). Suomalais-Ugrilainen Seura. p. 160
- ^ Uchiyama, J., Gillam, J., Savelyev, A., & Ning, C. (2020). "Populations dynamics in Northern Eurasian forests: A long-term perspective from Northeast Asia", Evolutionary Human Sciences, 2, E16. doi:10.1017/ehs.2020.11
- ^ "Sayan Solar Observatory". Institute of Solar-Terrestrial Physics, Russian Academy of Sciences - Siberian branch. Retrieved 2016-12-03.