Caucasus Mountains

The Caucasus Mountains[lower-alpha 1] are a mountain range at the intersection of Asia and Europe. Stretching between the Black Sea and the Caspian Sea, they are surrounded by the Caucasus region and are home to Mount Elbrus, the highest peak in Europe at 5,642 metres (18,510 ft) above sea level.

Caucasus Mountains
Aerial view of the Caucasus Mountains
Highest point
PeakMount Elbrus
Elevation5,642 m (18,510 ft)
Coordinates43°21′18″N 42°26′31″E
Dimensions
Length1,200 km (750 mi)
Width160 km (99 mi)
Geography
Topographic map
CountriesArmenia, Azerbaijan, Georgia, Iran, Russia and Turkey
ContinentEurasia
Range coordinates42°30′N 45°00′E
Satellite image of the Caucasus Mountains

The Caucasus Mountains include the Greater Caucasus in the north and Lesser Caucasus in the south. The Greater Caucasus runs west-northwest to east-southeast, from the Caucasian Natural Reserve in the vicinity of Sochi, Russia on the northeastern shore of the Black Sea to Baku, Azerbaijan on the Caspian Sea. The Lesser Caucasus runs parallel to the Greater about 100 km (62 mi) south.[1] The Greater and Lesser Caucasus ranges are connected by the Likhi Range, and to the west and east of the Likhi Range lie the Colchis Plain and the Kur-Araz Lowland. The Meskheti Range is a part of the Lesser Caucasus system. In the southeast, the Aras River separates the Lesser Caucasus from the Talysh Mountains which straddles the border of southeastern Azerbaijan and Iran. The Lesser Caucasus and the Armenian Highland constitute the Transcaucasian Highland, which at their western end converges with the highland plateau of Eastern Anatolia in the far north east of Turkey. Mountains near Sochi hosted part of the 2014 Winter Olympics.

Geology

Geologically, the Caucasus Mountains belong to the Alpide belt system that extends from southeastern Europe into Asia[2] and is considered a border between the two continents.[3] The Greater Caucasus Mountains are mainly composed of Cretaceous and Jurassic rocks with the Paleozoic and Precambrian rocks in the higher regions. Some volcanic formations are found throughout the range. On the other hand, the Lesser Caucasus Mountains are formed predominantly of the Paleogene rocks with a much smaller portion of the Jurassic and Cretaceous rocks. The evolution of the Caucasus began from the Late Triassic to the Late Jurassic during the Cimmerian orogeny at the active margin of the Tethys Ocean while the uplift of the Greater Caucasus is dated to the Miocene during the Alpine orogeny.

The Caucasus Mountains formed largely as the result of a tectonic plate collision between the Arabian Plate moving northwards with respect to the Eurasian Plate. As the Tethys Sea was closed and the Arabian Plate collided with the Iranian Plate and was pushed against it and with the clockwise movement of the Eurasian Plate towards the Iranian Plate and their final collision, the Iranian Plate was pressed against the Eurasian Plate. As this happened, the entire rocks that had been deposited in this basin from the Jurassic to the Miocene were folded to form the Greater Caucasus Mountains. This collision also caused the uplift and the Cenozoic volcanic activity in the Lesser Caucasus Mountains.[4]

The entire region is regularly subjected to strong earthquakes from this activity.[5] While the Greater Caucasus Mountains have a mainly folded sedimentary structure, the Lesser Caucasus Mountains are largely of volcanic origin.[6]

The Javakheti Volcanic Plateau in Georgia and the surrounding volcanic ranges which extend well into central Armenia are some of the youngest features of the region. Only recently was the Caucasus a scene for intense volcanic activity: the Armenian highland was flooded by calc-alkaline basalts and andesites in the Pliocene and the highest summits of the Caucasus, the Elbrus, and the Kazbek, formed as Pleistocene-Pliocene volcanoes. The Kazbek is no longer active, but the Elbrus erupted in postglacial times and fumarole activity is registered near its summit. Contemporary seismic activity is a prominent feature of the region, reflecting active faulting and crustal shortening. Clusters of seismicity occur in Dagestan and in northern Armenia. Many devastating earthquakes have been documented in historical times, including the Spitak earthquake in December 1988 which destroyed the Gyumri-Vanadzor region of Armenia.

Notable peaks

Mount Elbrus, at 5,642 m (18,510 ft), in the Caucasus Mountains, is sometimes cited as the highest peak in Europe. Mount Elbrus is 832 m (2,730 ft) higher than Mont Blanc, the highest peak in the Alps and Western Europe at 4,810 m (15,780 ft). However, there are some technical disagreements over whether Mount Elbrus is in Europe.[7] The crest of the Greater Caucasus Mountains is usually taken to define the Greater Caucasus Watershed which marks the continental boundary between Asia and Europe for the region between the Black and Caspian seas. This classification would place Mount Elbrus at the junction with Asia.[3]

The table below lists some of the highest peaks of the Caucasus. With the exception of Shkhara, the heights are taken from Soviet 1:50,000 mapping. The list includes the ten ultras (mountains of more than 1,500 m prominence) and all mountains over 4,500 m height with 300 m prominence. Mount Ararat (5,137 m) in Turkey is just south of the Lesser Caucasus.

Some of the Highest peaks in the Caucasus Mountains
Peak name Elevation
(metres)
Prominence
(metres)
Country
Elbrus
5,642
4,741
Russia
Dykh-Tau
5,205
2,002
Russia
Shkhara
1,365
Georgia / Russia  
Koshtan-Tau
5,152
822
Russia
Pushkin peak
5,100
110
Russia
Janga
(Dzhangi-Tau)
5,085
300
Georgia / Russia
Mizhirgi
5,047
10
Russia
Kazbek
5,034
2,353
Georgia / Russia
Katyn-Tau
4,979
240
Georgia / Russia
Kukurtlu Dome
4,978
18
Russia
Gistola
4,860
320
Georgia / Russia
Shota Rustaveli
4,860
c.50
Georgia / Russia
Tetnuldi
4,858
672
Georgia
Dzhimara
(Jimari)
4,780
840
Georgia / Russia
Ushba
4,710
1,143
Georgia
Dumala-Tau
4,682
332
Russia
Gora Uilpata
4,649
1300
Russia
Tikhtengen
4,618
768
Georgia / Russia
Ailama
4,547
1,067
Georgia / Russia
Tiutiun-Tau
4,540
380
Russia
Jailik
4,533
926
Russia
Salinan
4,508
621
Russia
Tebulosmta
4,499
2,145
Georgia / Russia
Mount Bazardüzü
4,466
2,454
Azerbaijan / Russia
Mount Shan
4,451
1,775
Georgia / Russia
Tepli
4,431
1,144
Russia
Diklo
4,285
843
Georgia / Russia
Mount Shahdagh
4,243
1,102
Azerbaijan
Gora Addala
Shukgelmezr
4,152
1,792
Russia
Gora Dyultydag
4,127
1,834
Russia
Aragats
4,090
2,143
Armenia
Deavgay
4,016
1,251
Russia

Climate

Aishkho Pass, Caucasus Nature Reserve

The climate of the Caucasus varies both vertically (according to elevation) and horizontally (by latitude and location). Temperature generally decreases as elevation rises. Average annual temperature in Sukhumi, Abkhazia at sea level is 15 °C (59 °F) while on the slopes of Mt.Kazbek at an elevation of 3,700 metres (12,100 ft), average annual temperature falls to −6.1 °C (21.0 °F). The northern slopes of the Greater Caucasus Mountain Range are 3 °C (5.4 °F) colder than the southern slopes. The highlands of the Lesser Caucasus Mountains in Armenia, Azerbaijan, and Georgia are marked by sharp temperature contrasts between the summer and winter months due to a more continental climate.

Precipitation increases from east to west in most areas. Elevation plays an important role in the Caucasus and mountains generally receive higher amounts of precipitation than low-lying areas. The northeastern regions (Dagestan) and the southern portions of the Lesser Caucasus Mountains are the driest. The absolute minimum annual precipitation is 250 mm (9.84 in) in the northeastern Caspian Depression. Western parts of the Caucasus Mountains are marked by high amounts of precipitation. The southern slopes of the Greater Caucasus Mountain Range receive higher amounts of precipitation than the northern slopes. Annual precipitation in the Western Caucasus ranges from 1,000 to 4,000 mm (39.37–157.48 in) while in the Eastern and Northern Caucasus (Chechnya, Ingushetia, Kabardino-Balkaria, Ossetia, Kakheti, Kartli, etc.) precipitation ranges from 600 to 1,800 mm (23.62–70.87 in). The absolute maximum annual precipitation is 4,100 mm (161.42 in) around the Mt. Mtirala area which lies on the Meskheti Range in Ajaria. The precipitation of the Lesser Caucasus Mountain Range (Southern Georgia, Armenia, western Azerbaijan), not including the Meskheti Range, varies from 300-800 mm (31.50 in) annually.

The Caucasus Mountains are known for the high amount of snowfall, although many regions which are not located along the windward slopes do not receive nearly as much snow. This is especially true for the Lesser Caucasus Mountains which are somewhat isolated from the moist influences coming in from the Black Sea and receive considerably less precipitation (in the form of snow) than the Greater Caucasus Mountains. The average winter snow cover of the Lesser Caucasus Mountains ranges from 10 to 30 cm (3.94–11.81 in). The Greater Caucasus Mountains (especially the southwestern slopes) are marked by heavy snowfall. Avalanches are common from November to April.

Snow cover in several regions (Svaneti and northern Abkhazia) may reach 5 metres (16 ft). The Mt. Achishkho region, which is the snowiest place in the Caucasus, often records snow depths of 7 m (23 ft).

Landscape

Khodz river headwaters, Western Caucasus

The Caucasus Mountains have a varied landscape which mainly changes according to elevation and distance from large bodies of water. The region contains biomes ranging from subtropical lowland marshes and forests to glaciers (Western and Central Caucasus), and highland semideserts, steppes, and alpine meadows in the south (mainly in Armenia and Azerbaijan).

The northern slopes of the Greater Caucasus Mountains are covered by oak, hornbeam, maple, and ash forests at lower elevations while birch and pine forests take over at higher elevations. Some of the lowest areas of the region are covered by steppes and grasslands. The slopes of the Northwestern Greater Caucasus (Kabardino-Balkaria, Cherkessia, etc.) also contain spruce and fir forests. The alpine zone replaces the forest at around 2,000 metres (6,600 ft) above sea level. The permafrost/glacier line generally starts around 2,800–3,000 metres (9,200–9,800 ft). The southeastern slopes of the Greater Caucasus Mountains are covered by beech, oak, maple, hornbeam, and ash forests. Beech forests tend to dominate in higher locations. The southwestern slopes of the Greater Caucasus are covered by Colchian forests (oak, buxus, beech, chestnut, hornbeam, elm) at lower elevations with coniferous and mixed forests (spruce, fir and beech) taking over at higher elevations. The alpine zone on the southern slopes may extend up to 2,800 metres (9,200 ft) above sea level while the glacier/snow line starts at 3,000–3,500 metres (9,800–11,500 ft).

The northern and western slopes of the Lesser Caucasus Mountains are characterized both by Colchian and other deciduous forests at lower elevations while mixed and coniferous forests (mainly spruce and fir) dominate at higher elevations. Beech forests are also common at higher elevations. The southern slopes of the Lesser Caucasus Mountains are largely covered by grasslands and steppes up to an elevation of 2,500 metres (8,200 ft). The highest areas of the region contain alpine grasslands as well. Volcanic and other rock formations are common throughout the region. The volcanic zone extends over a large area from southern Georgia into Armenia and southwestern Azerbaijan. Some of the prominent peaks of the region include Mt. Aragats, Didi Abuli, Samsari, and others. The area is characterized by volcanic plateaus, lava flows, volcanic lakes, volcanic cones and other features. The Lesser Caucasus Mountains lack the type of glaciers and glacial features that are common on the Greater Caucasus Mountain Range.

History

Crossing the Caucasus Mountain range was an important section of the northern arm of the Silk Route. There was one pass on the southeast end in Derbent (known as the Caspian Gates or Gates of Alexander), and multiple passes throughout the range: Jvari Pass at 2379 m and above the Darial Gorge on the Georgian Military Road, Mamison Pass on the Ossetian Military Road at 2911 m, and Roki Tunnel at 2310 m.

See also

Notes

  1. Native names:
    • Georgian: კავკასიონი, romanized: k'avk'asioni,
    pronounced [kʼɑvkʼɑsiɔni]
    • Armenian: Կովկասյան լեռներ, Kovkasyan leṙner
    pronounced [kɔvkɑsjɑn lɛrˈnɛɾ]
    • Azerbaijani: Qafqaz dağları, pronounced [qɑfqɑz dɑʁlɑrɯ]
    • Russian: Кавка́зские го́ры, tr. Kavkázskiye góry, IPA: [kɐfˈkasːkʲɪje ˈɡorɨ]
    • Turkish: Kafkas Dağları, Turkish pronunciation: [kafkas daːɫaɾɯ]
    • Persian: كوه هاى قفقاز
  2. The elevation and coordinates given here are taken from a DGPS survey by Peter Schoen and Boris Avdeev, in association with "GeoAT".. It was carried out in July 2010 and "made available". November 2010. in November 2010.
    Some sources, including the Great Soviet Encyclopedia, give the estimation of only 5,068 metres (16,627 feet), but this is the correct height of the lower western summit. Soviet era 1:50,000 mapping shows a 5,158 metre spot height to the east, and this can be verified using a "panoramic photograph". taken from Elbrus. The true [maximum] elevation is on higher ground, still further east along the Shkhara ridge.

References

  1. Stokes, Chris R. (2011). Singh, Vijay P.; Haritashya, Umesh K. (eds.). Encyclopedia of Snow, Ice and Glaciers. Spring Science & Business Media. p. 127. ISBN 978-90-481-2641-5.
  2. Sharkov, E.; Lebedev, V.; Chugaev, A.; Zabarinskaya, L.; Rodnikov, A.; Sergeeva, N.; Safonova, I. (2015-07-01). "The Caucasian-Arabian segment of the Alpine-Himalayan collisional belt: Geology, volcanism and neotectonics". Geoscience Frontiers. 6 (4): 513–522. doi:10.1016/j.gsf.2014.07.001. ISSN 1674-9871.
  3. National Geographic Maps (Firm) (2011), Atlas of the world, Washington, D.C.: National Geographic Society, ISBN 978-1-4262-0632-0, OCLC 671359683, retrieved 2021-01-09
  4. Adamia, Shota; Zakariadze, Guram; Chkhotua, Tamar; Sadradze, Nino; Tsereteli, Nino; Chabukiani, Aleksandre; Gventsadze, Aleksandre (January 2011). "Geology of the Caucasus: A Review" (PDF). Turkish J. Earth Sci. 20: 489–544.
  5. Reilinger, R. E.; McClusky, S. C.; Oral, M. B.; King, R. W.; Toksoz, M. N.; Barka, A. A.; Kinik, I.; Lenk, O.; Sanli, I. (January 1997). "Global Positioning System measurements of present-day crustal movements in the Arabia-Africa-Eurasia plate collision zone". Journal of Geophysical Research. 102 (B5): 9983–9999. Bibcode:1997JGR...102.9983R. doi:10.1029/96JB03736.
  6. Philip, H.; Cisternas, A.; Gvishiani, A.; Gorshkov, A. (1 April 1989). "The Caucasus". Tectonophysics. 161 (1–2): 1–21. Bibcode:1989Tectp.161....1P. doi:10.1016/0040-1951(89)90297-7.
  7. "Mt. Elbrus". NASA Earth Observatory. NASA. 7 July 2003. Archived from the original on 15 December 2018. Retrieved 16 February 2015.
  • Parts of this article are from the NASA Earth Observatory: "Mt. Elbrus". Earth Observatory (image & text). newsroom / new images. NASA. 12 September 2000. Archived from the original on 2005-10-28.

Further reading

  • Kropotkin, Peter Alexeivitch; Bealby, John Thomas (1911). "Caucasus" . Encyclopædia Britannica. Vol. 5 (11th ed.). pp. 550–555.
  • Cornell, Svante E. (1 December 2000). Small Nations and Great Powers: A study of ethnopolitical conflict in the Caucasus (1st ed.). Routledge. ISBN 978-070071162-8. Sets out a synthesis of the Caucasian conflicts and a conclusion on the place of the Caucasus in world affairs.
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