The climatic region of the natural region of the Caucasus is different: Ciscaucasia occupies a temperate climate region, and Transcaucasia is subtropical. Climatic regions are different because of different topography, air currents, local circulation. Changes in climatic conditions in the Caucasus occur in three directions. From the western part of the Caucasus towards the east, the continentality of the climate increases. The total solar radiation increases from north to south. The higher the mountains, the lower the temperature and the more precipitation. In the North Caucasus, solar radiation is 1.5 times more than in the Moscow region, per 1 cm2 per year. surface 120-140 kC. Depending on the season, the radiation flux is different: in summer the heat balance is positive, and in winter it is negative, since a certain percentage of radiation is reflected by the snow cover. Summer is long. The fluctuation of temperatures in July on the plains is more than +20 degrees. In January, the temperature ranges from -10 to +6 degrees Celsius.

Continental air dominates in the north of the Caucasus temperate latitudes. Transcaucasia is a zone air masses subtropics. The north is devoid of orographic obstacles, and the south has high mountains, so during the year different air masses penetrate here - arctic cold air, wet air tropics of the Mediterranean, Atlantic moist air masses or dry and dusty Asiatic and Middle Eastern air. In the Ciscaucasia, winter is dominated mainly by continental air from temperate latitudes. In winter, low pressure areas form over the Black and Caspian Seas, so strong cold winds appear. The Asian anticyclone is moving to the east, which reduces the amount of snow. IN winter period a local anticyclone is forming over the Armenian Highlands. In the Ciscaucasia, the temperature drops to 30-36 with a minus mark due to the cold northern air. The minimum temperature in Anapa is 260C, in Sochi - 150C.

In the cold season, the influence of cyclones on the Black Sea coast increases, so the amount of precipitation during this period is the largest. In the rest of the territory, the maximum precipitation is observed in the summer. In winter, snow falls in the mountains of the Caucasus and on the plains. There are snowless winters. The thickness of the snow cover on the plains is from 10 to 15 cm. The southwestern slopes of the Greater Caucasus are covered with a 3-4 meter snow blanket. The summer climate of the Caucasus is formed mainly by humid air from the Atlantic and dry continental air. The air temperature of the Western Ciscaucasia and the Black Sea coast reaches + 22, +23 degrees, the eastern Ciscaucasia reaches +24, + 25 degrees. There is a noticeable drop in temperature with height. On Elbrus, the average thermometer is only +1.4 degrees.

In Ciscaucasia, Atlantic cyclones bring the maximum amount of precipitation in the first half of summer. In the middle of summer, air masses transform over the southeast of the East European Plain, which leads to a decrease in precipitation and the formation of dry winds with droughts. Rising from the foothills to the mountains, the amount of precipitation increases, but in the eastern part it decreases significantly. The annual indicator of the Kuban-Azov lowland reaches 550-600 mm of precipitation. If we consider the Sochi region, then the figure will be equal to 1650 mm. In the west of the Greater Caucasus mountains, on average, 2000-3000 mm of precipitation falls, and in the eastern region the figure is 1000-1500 mm. The greatest amount of precipitation was noted on the windward slopes of the Greater Caucasus from the southwestern side. For example, at the Achishkho station, the largest amount of precipitation falls not only in the Caucasus region, but also in all of Russia taken together. This figure reaches more than 3700 mm per year.

The modern glaciation of the Caucasus is associated with its climate and relief features. There are 1498 glaciers in the Russian Caucasus, which is 70% of the total number of glaciers, as well as the glaciation area of ​​the Greater Caucasus.

Rivers of the Caucasus

The mountains of the Caucasus gather in themselves a large number of moisture. These are rains, snow, glaciers. It is in the mountains that the sources of all Caucasian rivers are located. Through the flat territories of Ciscaucasia, the waters of the rivers enter the Black, Azov and Caspian Seas. Mostly mountain rivers with a rapid current. There are also lowland rivers in the Caucasus, which have a slow flow and a small flood. The Stavropol Upland is the starting point for part of the lowland rivers. In summer, they dry up, forming a kind of chain of lakes. The upper reaches of the rivers Kuban, Kuma, Rioni, Terek, Kura, Araks are located in the mountains, and the lower reaches are on the plains. These rivers are fed by rain and groundwater. Downpours feed the rivers located between Tuapse and Sochi, turning them into swift streams. When there is no rain, rivers turn into streams. origins mountain rivers Bzyb, Kodor, Enguri are located at an altitude of 2 to 3 thousand meters. Sulak and Terek flow at high speed through deep canyon-like gorges. These rivers have rapids and waterfalls.

The density of the river network of valleys is uneven and reaches only 0.05 km/sq. km. The southern slope of the mountain system has a dense river network. The rivers of the Caucasus, especially in Dagestan, are muddy, as rocks are washed out, as well as various sediments. Most muddy waters the rivers Kura and Terek. The Kuban, Kagalnik, Western Manych, Chelbas and Beisug flow into the Black Sea. The rivers of the Caspian Sea basin are Samur, Terek, Sulak, East Manych, Kuma and Kalaus.

The Caucasian rivers have an insignificant transport function. The Kura, Rioni, Kuban can be attributed to the category of navigable. They use rivers for the purpose of irrigating territories, and it is also convenient to float timber along them. There are hydroelectric power stations on many Caucasian rivers.

Lakes of the Caucasus

There are few lakes in the Caucasus. Total number- about 2 thousand. The area of ​​lakes is small. An exception can be considered the mountain lake Sevan, the height of the water surface of which is 1916 m, and the greatest depth is 99 m. The area and depth of the lake have slightly decreased due to the construction of a hydroelectric power station on it. This factor affected not only the lake, but also the nature of the adjacent territory. Some species of animals have disappeared, the number of fish has decreased, and bare peat bogs have formed on the ground.

The plains of the coasts of the Azov and Caspian Seas contain lagoonal and estuary lakes. Manych lakes formed a whole system. Certain lakes in this system sometimes dry up during the summer.

The foothills and lower slopes of lakes do not have, but there are many of them in the mountains. The basins of mountain lakes are different in origin. Most of them are tectonic, but there are also karst, volcanic and cirque. Lakes of volcanic origin are marked by damming. River basin Teberdy is famous for its lakes of glacial origin that have survived to this day. The floodplains of flat rivers are decorated with original lakes. For example, such is the dammed lake Ritsa, located in the mountains.

The Caucasus is one of the southern regions of Russia. Its extreme points lie within 50.5 ° N. sh. (northern extremity Rostov region) and from p. sh. (on the border of Dagestan). The territory of the North Caucasus receives a lot of solar radiation - approximately one and a half times more than, for example, the Moscow region. Its annual amount for the plains and foothill regions is 120-140 large calories (kilocalories) per square centimeter of surface.

In different seasons of the year, the radiation flux is different. In summer, each square centimeter of the surface receives 17-18 kcal per month. At this time, the heat balance is positive. In winter, the flow of sunlight is sharply reduced - up to 3-b kcal per 1 sq. km. cm per month and a lot of heat reflects the snowy earth's surface. Therefore, the radiation balance becomes negative for some time in the middle of winter.

In the North Caucasus, everywhere, with the exception of the highlands, there is a lot of heat. On the plains, the average temperatures in July everywhere exceed 20°, and summer lasts from 4.5 to 5.5 months. Average January temperatures fluctuate in different regions from -10° to +6°, and winter lasts only two or three months. The rest of the year is occupied by transitional seasons - spring and autumn.

Due to the abundance of heat and light, vegetation in the Caucasus has the opportunity to develop in the northern parts of the region for seven months, in Ciscaucasia - eight months, and on the Black Sea coast, south of Gelendzhik - up to 11 months. This means that with an appropriate selection of field and garden crops, one can get one and a half crops a year * in the north of the region, and even two crops in the entire Ciscaucasia.

The movement of air masses and their transformation in the territory of the North Caucasus are exceptionally complex and diverse. The area is located on the border of temperate and subtropical latitudes, not far from the warm mediterranean sea. As far north as the Arctic Ocean, there are no significant orographic obstacles. In the south, on the contrary, high chains of mountains rise. Therefore, in all seasons of the year, various air masses can penetrate the North Caucasus: either the cold dry air of the Arctic, then the moisture-saturated masses formed over the Atlantic Ocean, then the humid tropical air of the Mediterranean and, finally, although very rarely, also tropical, but dry and heavily dusty air from the desert highlands of Western Asia and the Middle East. Replacing each other, various air masses create a great diversity and variety of weather conditions, which distinguish the North Caucasus. But the main amount of precipitation is associated with westerly winds carrying moisture from the Atlantic. Their moisture is intercepted by the slopes of mountains and hills facing to the west, while to the east the dryness and continentality of the climate increases, which affects the entire landscape.

The nature of the circulation of air masses in different seasons of the year has noticeable differences. And, of course, the conditions of the plains and mountains are sharply different.

On the plains in winter, the cold dense air of Siberia and Kazakhstan (the Siberian, or Asian, anticyclone) collides with each other and the relatively warm rarefied air that sets over the Black Sea (the Black Sea depression). Under the influence of the Siberian anticyclone, streams of dry, strongly cooled air are constantly directed towards Ciscaucasia. Due to the significant difference in pressure, the air flows quickly, forming strong, often stormy easterly and northeasterly winds. These winds dominate throughout the winter in the Caspian region and in the eastern parts of Ciscaucasia. Due to the dryness of the air they bring, there is almost no precipitation here, and the thickness of the snow cover is small - 5-10 cm, in some places there is no snow at all.

Further to the west, the air of the Siberian anticyclone rarely penetrates. The entire Western Ciscaucasia is under the influence of the Black Sea depression: cyclones come from there, bringing sharp warming and a lot of precipitation. The snow cover in the west is 2-3 times thicker than in the east, the winter is unstable: frequent thaws sometimes last for a week or more, with temperatures rising to 6-12° in the north and up to 20° in the south of the region.

The Stavropol Upland is a kind of climatic boundary between the Eastern and Western Ciscaucasia. Here, air masses that are very heterogeneous in their physical properties meet each other. In this case, the winds usually increase sharply; the variable wind regime is the main feature of winter in the Stavropol Territory.

Arctic air usually comes to the North Caucasus from the northwest. In the Lower Don and Ciscaucasia, this cold air, as a rule, is delayed for a long time by the dense air of the Siberian anticyclone and mountain ranges. Then, seemingly not at all characteristic of these southern places low temperatures. Thus, in Pyatigorsk and Maykop, the absolute minimums, that is, the lowest of the observed temperatures, are -30°, and in Krasnodar even -33°. The average lows are also quite severe: -16°, -20°.

The cold Arctic air, as if pressed against the ground, usually does not rise high and does not cross the mountain ranges that protect the Transcaucasus from the destructive northern cold. But cold invasions can bypass the Caucasus Mountains along their eastern outskirts along the Caspian coast, reaching Baku and its environs, often having a detrimental effect on the coastal regions of Dagestan along the way.

In the west, on a small section of the coast from Novorossiysk to Gelendzhik, where mountain range low, cold and dense air, accumulating in the foothills, sometimes rises to the saddle of the Markotkh pass. Then a bora falls on the city of Novorossiysk and the Tsemess Bay, in the local north-east - a wind of hurricane strength and speed, moreover, extremely cold. It often brings serious destruction to the urban economy and causes severe storms in the coastal parts of the sea.

In the spring, air masses heated from the earth's surface rush upwards and the pressure weakens. Then conditions are created for the active invasion of warm Mediterranean air. Under its influence, the unstable snow cover melts together, the average daily temperatures quickly increase, and already in early May, summer conditions are established throughout the entire territory of the North Caucasus, except for the highlands.

In summer, the incoming air is actively transformed under the influence of a strongly heated earth's surface, and its own air, close to the tropical type, is formed on the territory of the region. On the plains everywhere, often for many weeks, an anticyclone sets in with its characteristic weather features: hot days prevail, with weak winds, low clouds and strong warming of the surface layers of air, almost completely without rain.

Only from time to time anticyclonic conditions are replaced by periods of passage of cyclones. They usually invade from the Atlantic through Western Europe, Belarus and Ukraine, and much less frequently from the Black Sea. Cyclones bring cloudy weather: heavy rains fall on their leading fronts, often accompanied by thunderstorms. Occasionally, long drizzling rains fall in the rear of passing cyclones.

Cyclones almost always come from the west or northwest, and as they move east and southeast, the air masses they bring lose their moisture reserves. Therefore, not only in winter, but also in summer, the western plain Ciscaucasia is more abundantly moistened than the eastern one. In the west, the annual precipitation is 380-520 mm, while in the Caspian region it is only 220-250 mm. True, in the foothills and on the Stavropol Upland, precipitation increases to 600-650 mm, but on the plains east of the upland, it is not enough to make full use of the abundance of solar heat in agriculture and horticulture. The situation is further complicated by the extreme unevenness of precipitation over time.

In fact, the entire territory of the Lower Don and the plain Ciscaucasia is not guaranteed against the possibility of droughts with their constant companions - dry winds - a cruel, inexorable enemy of field and horticultural plants. However, not all areas are equally prone to these formidable natural phenomena. So, for the period from 1883 to 1946, that is, for 64 years, droughts occurred 21 times in the Caspian region, 15 times in the Rostov region, and only 5 times in the Kuban.

During droughts and dry winds, especially in the east, dusty or black storms often occur. They occur when the upper layers of dry soil, still loosely held together by newly emerged plants, are blown away by strong winds. A cloud of dust rises into the air, covering the sky with a thick veil. Sometimes the dusty cloud is so dense that the sun barely shines through it and appears as a hazy, blood-red disk.

Measures of protection against black storms are known. The main ones are properly planned forest shelterbelts and high agricultural technology. Much has already been done in this direction. However, until now, in the fields of the Ciscaucasia, it is often necessary to re-sow (re-sow) several tens of thousands of hectares, from which the most fertile soil layer is demolished during dust storms.

In autumn, the influx of solar heat weakens. Initially, the features of the summer circulation are still preserved. Anticyclonic weather prevails with a weak movement of air masses. Subsequently, the earth's surface begins to noticeably cool, and from it the lower layers of air. In the mornings, thick milky-white fogs spread over the ground that has cooled overnight. The already strongly cooled air of the Siberian anticyclone comes more and more often, and in November a winter type of circulation is established over the entire territory of the North Caucasus.

The climate of the mountainous territories of the North Caucasus (from 800-900 m and above) is very different from the adjacent plains, although it repeats some of the most common features.

One of the main differences is that the mountain slopes, delaying the flow of air masses, make them rise up. At the same time, the temperature of the air mass decreases rapidly, and moisture saturation increases, which leads to precipitation. Therefore, the mountain slopes are much better moistened: in the mountains of the Western Caucasus at altitudes above 2000 m, 2500-2600 mm falls annually; to the east their number decreases to 900-1000 mm. The lower zone of the mountains - from 1000 to 2000 m - receives less precipitation, but still enough for the growth of lush forest vegetation.

Another difference is due to the decrease in temperature with increasing altitude: for every 100 m you rise, it drops by about 0.5-0.6°. In this regard, a belt distribution of climate is clearly manifested on the mountain slopes, and already at an altitude of 2700 m on the northern slopes of the mountains of the Western Caucasus, 3700-3800 m in the Central and 3500 m in the Eastern, there is a snow line, or the border of "eternal" snow. Above it, the warm season with positive temperatures lasts no more than 2.5-3 months, and at altitudes above 4000 m, even in July, positive temperatures are observed very rarely.

Due to the abundance of precipitation in the mountains of the Western Caucasus during the winter, 4–5 and snow accumulates, and in the mountain valleys, where it is blown away by the wind, up to 10–12 m. even a sharp sound, so that a thousand-ton mass of accumulated snow, breaking off a steep ledge, flew down with a terrible roar, destroying everything in its path. In the mountains of the Eastern Caucasus, due to the general dryness, the snow cover is much less.

The third difference between the mountain climate is that the chilled air of the highlands often, as it were, rushes down the comparatively narrow intermountain valleys. For every 100 m lowered, the air heats up by about 1°. Falling from a height of 2500 m, when it reaches the lower parts of the mountains and foothills, it heats up by 25 °, that is, instead of cold, it will become warm and even hot. Such winds are called foehns. They blow in all seasons, but especially often in the spring, when the intensity increases sharply. general circulation air masses.

Finally, another important distinguishing feature The climate of the mountains is its amazing diversity from place to place, which is due to the rugged relief with numerous bends of slopes, differently oriented with respect to sun illumination and the directions of prevailing winds. On the plains, differences in the orientation of the slopes are less pronounced due to their low steepness.

For all the importance of each of the noted features of the climate of the mountains, the height, which determines the vertical division into climatic zones.

General characteristics of the climate of the Caucasus

The climatic conditions of the Caucasus are determined not only by its geographical position, but also by its relief.

The Caucasus is located on the border of two climatic zones - temperate and subtropical. These climatic zones have internal differences, which are determined by the relief, air currents, local atmospheric circulation and the position between the seas.

Climate change is happening in three ways:

1. in the direction of increasing continentality, i.e. from west to east;
2. towards an increase in radiative heat, i.e. from North to South;
3. in the direction of increasing precipitation and decreasing temperatures, i.e. with height.

The territory receives a lot of solar heat and in summer the radiation balance is close to tropical, so the air masses here are transformed into tropical air.

In winter, the radiation balance approaches positive values.

Continental air of temperate latitudes dominates the North Caucasus, subtropical air dominates the Transcaucasus. Altitudinal belts are under the influence of western directions.

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Transcaucasia, Ciscaucasia and the western part of the Greater Caucasus are under the influence of Mediterranean cyclones.

The mountains of the Greater Caucasus do not allow cold northern air masses to pass into the Transcaucasus, and in the same way they do not allow warm air masses to pass into the Ciscaucasia, therefore the northern and southern parts of the Caucasus have large temperature differences.

Average annual temperatures vary from +10 degrees in the north to +16 degrees in the south.

In summer, temperature differences are smoothed out, but there is a difference in temperatures between the western and eastern parts of the mountains. July temperature in the west is +23, +24 degrees, and in the east +25, +29 degrees.

In winter, an area of ​​low pressure forms over the Black Sea and the south of the Caspian Sea, and a local anticyclone forms over the Armenian Highlands.

In summer, an area of ​​low pressure forms over Asia, as a result, the sea air from the Atlantic intensifies in temperate latitudes and captures the Caucasus. The precipitation that sea air brings falls on the windward slopes of mountains.

In the second half of summer, the Caucasus captures the Azores high, which shifts to the north.

Summer and winter temperatures are higher on the southern slopes of the Caucasus. With height, the annual amount of precipitation increases, and decreases from west to east at all levels.

At an altitude of 2000 m, the western air transport plays a leading role, here the influence of the Atlantic Ocean and the Mediterranean Sea increases, and the upper "floor" is located in conditions where a free atmosphere circulates.

Since the relief of the mountains provides this exchange, the climate of the highlands is more humid and resembles a sea one.

Marine-type air masses cannot form over them due to the insufficient size of the Black and Caspian Seas. Continental air circulates above the surface of the seas, in the lower layer of which there is a change in temperature and humidity.

The Black Sea is located on the path of western air currents and evaporation from its surface comes to the mountains, giving a significant part of the precipitation on the southern slope of the western part.

The climate of the Caucasus in winter

In winter, continental air of temperate latitudes dominates within Ciscaucasia, east and northeast winds. The northern slopes of the Greater Caucasus trap cold air, and it does not rise above 700-800 m, but in the northwestern part, where the height is less than 1000 m, cold air manages to cross the mountain range.

At this time, low pressure is established over the Black Sea, and cold air falls from the mountains, rushing to the sea.

As a result, there is a Novorossiysk bora - a strong cold wind. It arises in the Anapa-Tuapse section. The air temperature during the wind drops to -15 ... -20 degrees.

The western transport of air in winter is at an altitude of 1500-2000 m. The activity of cyclones at this time has a great influence on the formation of climatic conditions.

Mediterranean cyclones cross the Caucasus in the western part and cause thaws, snow avalanches.

Föhn winds form on the northern slopes of the Greater Caucasus. The temperature during this period rises to + 15 ... + 20 degrees.

The influence of the sea and frequent heat advection determine the positive average temperature, so in Novorossiysk the average January temperature is +2 degrees, in Sochi +6.1 degrees. In the mountains with height, it will drop to -12 ... -14 degrees.

On the coast of the Caspian Sea -2 ... 0 degrees.

Sometimes cold northern air masses can reach Ciscaucasia and lower the air temperature to -30 ... -36 degrees. The absolute minimum in Anapa is -26 degrees, in Sochi -15 degrees.

Winter cyclones bring an abundance of precipitation to the Black Sea coast. In the mountains and on the plains, a snow cover is established, with a thickness of 10-15 cm, which disappears during thaws.

Abundant precipitation falls on the southwestern slopes of the Greater Caucasus, and since thaws are much rarer here, the snow thickness reaches 3-4 m.

In the eastern part of the mountains, the thickness of the snow cover is reduced to 1 m. On the Stavropol Upland, snow lasts 70-80 days, and in the mountains up to 80-110 days.

At this time, the area of ​​high atmospheric pressure is formed on the Javakheti-Armenian Highlands, and the cold continental air of Asia Minor enters. As you move east, it quickly transforms.

The climate of the Caucasus in summer

Humid Atlantic and dry continental air masses coming from the east exert their influence on the formation of the climate in the Caucasus in summer.

The air of the Black Sea coast and Western Ciscaucasia warms up to +22, +23 degrees.

The high parts of the Stavropol Upland warm up to +21 degrees, and the temperature in the east of Ciscaucasia rises to +24, +25 degrees.

The June maximum precipitation in the first half of summer is enhanced by the influence of Atlantic cyclones.

By the middle of the summer period over the southeast of the Russian Plain, the air masses are transformed, so there is less precipitation and conditions for the formation of droughts and dry winds appear.

The amount of precipitation from the foothills to the mountains and in the mountains increases, but decreases when moving from west to east. So, the annual amount of precipitation in the Kuban-Azov lowland is 550-600 mm, in the Stavropol Upland their amount increases to 700-800 mm, and within the Eastern Ciscaucasia it decreases to 500-350 mm.

The increase in precipitation from north to south again occurs on the Black Sea coast from 700 mm in the Novorossiysk region to 1650 mm in Sochi.

In the west of the Greater Caucasus, 2000-3000 mm falls, and in the east - 1000-1500 mm. The windward southwestern slopes of the Greater Caucasus receive more than 3700 mm during the year - this is the largest amount of precipitation in the country.

The highest summer temperatures are observed in the Kura-Araks lowland +26…+28 degrees. The temperature in the rest of the territory is +23 ... +25 degrees, and in the Javakheti-Armenian Highlands +18 degrees.

Depending on the height of the mountains, temperature and precipitation change, thus forming a high-altitude climatic zoning - on the Black Sea coast +12, +14 degrees, in the foothills already +7, +8 degrees, and 0, -3 degrees at an altitude of 2000-3000 m.

With altitude, the positive average annual temperature remains at an altitude of 2300-2500 m, and on Elbrus the temperature is already -10 degrees.

The Caucasus cannot be attributed to one climatic region. To the north of the axial belt of the Greater Caucasus - a temperate climate, in Transcaucasia - subtropical. Within them there are differences due to the nature of the relief, position in relation to air currents, position relative to the Black and Caspian Seas, and local circulation.

The climate of the Caucasus is changing in three directions:

from west to east - in the direction of increasing continentality,

from north to south - in the direction of increasing amounts of radiative heat

in the high-altitude direction - an increase in precipitation and a decrease in temperatures.

Cloudiness plays a special role - with an increase in the mountains and in the western regions of the Caucasus, due to its increase, the annual values ​​of solar radiation are less than average.

IN summer months The radiation balance in the Caucasus is close to tropical; local VMs are transformed into tropical ones.

Circulation: continental air of temperate latitudes dominates in the North Caucasus, subtropical in Transcaucasia. Alpine zones under the influence of western directions.

IN winter months the territory is located south of the "major axis"; areas of low pressure are formed over the Black and the south of the Caspian. The result is an outflow of dense cold masses of the "great axis" to the Caucasus. However, the mountain wall prevents penetration to the south, it is still possible to bypass along the coasts of the seas - "nords" and "boron". In the west, there is a lot of snow in the mountains. To the east, the influence of southwestern transport weakens and the influence of the Asian anticyclone intensifies, snowfall decreases. A local anticyclone forms over the Armenian Highlands in winter.

In summer time over Asia they form an area of ​​low pressure. The western currents of sea air of temperate latitudes from the North Atlantic are intensifying, which capture the Caucasus. They give up precipitation on windward slopes. In the second half, the Azorean maximum shifts to the north and often captures the Caucasus.

The role of foehns, mountain-valley winds and breezes, the formation of a center of low pressure over the Armenian Highlands is noticeable. Sea basins moderate the temperature.

In general, the southern slopes are characterized by higher (summer and winter) temperatures. The annual amount of precipitation increases with elevation to the mountains and decreases at all levels from west to east.

The Caucasus is located on the border of the temperate and subtropical zones. The influx of solar radiation is so significant that in the summer a local center for the formation of tropical air masses is created in Transcaucasia. The boundary of the temperate and subtropical belts runs along the axial part of the Greater Caucasus. Radiation balance 2300 MJ / m 2 / year (west) - 1800 (east) MJ / m 2 / year.

In winter, the continental air of temperate latitudes (CLA) spreads to Ciscaucasia from the Voeikov axis. East and northeast winds prevail. Cold air entering Ciscaucasia lingers on the northern slopes of the Greater Caucasus, not rising above 700-800 m. And only in the northwestern part of the Black Sea chain, where the height of the ridges is less than 1000 m, cold air crosses them. Over the water area of ​​the Black Sea in winter, low pressure is established, so cold heavy air rushes towards it at high speed, literally falling from the mountains. Strong cold winds arise, the so-called Novorossiysk bora. The air temperature during boron drops to -15...-20°С. Bora is observed in the Anapa-Tuapse section.

The upper parts of the mountains are located in the free atmosphere zone, where the prevailing role belongs to the western winds. In winter, the western transport dominates at an altitude of more than 1.5-2 km, and in summer - 3.5-4 km.

The formation of climatic conditions of the cold period is greatly influenced by cyclonic activity developing on the Mediterranean branch of the polar front. The trajectories of the Mediterranean cyclones are directed to the northeast of the Black Sea and cross the Caucasus in its western part. Their movement through the Caucasus leads to advection of tropical air, which causes intense thaws, snow cover, the occurrence of snow avalanches in the mountains and the formation of foehns on the northern slopes of the Greater Caucasus. With the development of hair dryers, the air temperature can rise to +15...+20°C. As the height of the mountains increases, the absolute maximum temperature decreases in winter and becomes negative at Elbrus station (-2...-3°C).

Frequent advection of heat and the influence of the sea determine the positive average monthly air temperature on the Black Sea coast of the Caucasus. The average January temperature in Novorossiysk is +2°С, in Sochi +6.1°С. In Ciscaucasia, the average air temperature is -1...-2°C in the western regions, dropping to -4...-4.5°C in the center and rising again to the Caspian Sea to -2...0°C. In the mountains, the temperature decreases with height, reaching -12 ... -14 ° C in the highlands, in the area of ​​\u200b\u200bperpetual snow and glaciers.

When cold air masses break through from the north, the temperature in Ciscaucasia can drop to -30...-36°C. Even in Anapa, the absolute minimum is -26°C, and in Sochi - -15°C.

The intensification of cyclonic activity in the cold season causes the winter maximum precipitation on the Black Sea coast of the Caucasus. In the rest of the territory, the maximum precipitation occurs in the summer.

In winter, snow cover sets in on the plains and in the mountains of the Caucasus. It first appears on the plains with relatively warm winter only in the second half of December. In some winters, stable snow cover does not form. Snow falls repeatedly during cooling and melts during thaws. The thickness of the snow cover on the plains is 10-15 cm. On the southwestern slopes of the Greater Caucasus Mountains (Achishkho), due to the abundance of winter precipitation and the decrease in the frequency of winter thaws, the snow thickness reaches 3-4 m. In the mountains of the eastern part of the Caucasus, it is reduced to 1 m (Myachkova N.A., 1983). The number of days with snow cover on the Stavropol Upland is 70-80, decreasing to the west and east of it to 50-40 and increasing in the mountains to 80-110 days due to the long cold period. On the lower border of the highland zone, snow lies 120 days a year.

In the Javakheti-Armenian Highlands, an area of ​​high pressure is formed at this time. From here, the cold continental air of Asia Minor (temperature -12°C) is taken out, penetrating into the middle part of the Riono-Kura corridor, but quickly transforming as it moves east. Colchis is filled with sea air masses of temperate latitudes, coming here with Mediterranean cyclones (t 4-6o). In winter, they constantly cross the Black Sea, where the pressure is low, and, as it were, fall into a trap between the B. and M. Caucasus ranges. The greatest amount of precipitation falls in late summer (August-September), as well as in late autumn - early winter. In other regions of the Caucasus, there is no precipitation at this time, with the exception of the Kuro-Araks lowland. Here, autumn-winter precipitation and partly spring precipitation are associated with a branch of the Iranian polar front, along the line of which cyclonic activity develops. It increases significantly on the slopes of Talysh and along the outskirts of this lowland.

In summer, the formation of the climate in the Caucasus is significantly affected by the frequency of humid Atlantic air masses and dry continental air masses, which form over the spaces of the interior regions of Eurasia and come from the east. In connection with this, the importance of the submeridional climate division (the transverse uplift of the Stavropol Upland - the Central Caucasus) is enhanced. On the Black Sea coast of the Caucasus and in the Western Ciscaucasia, the air warms up to 22-23°C. In the highest parts of the Stavropol Upland and in the Mineralovodchesky region, the average temperature in July is 20-21°C. In the east of Ciscaucasia, the air warms up to 24-25°C. In the mountains, the air temperature decreases with height, reaching 10°C at an altitude of about 2500 m and 7°C at an altitude of 3000 m. At the Elbrus station (altitude 4250 m), the average July temperature is only 1.4°C.

In the first half of summer in Ciscaucasia, the influence of Atlantic cyclones, which determine the June maximum precipitation, increases. Later, the transformation of air masses over the southeast of the Russian Plain increases, therefore, already in the middle of summer, the amount of precipitation decreases, and conditions are often created for the formation of dry winds and droughts, the frequency of which increases in the east.

The annual amount of precipitation increases from the foothills to the mountains and with the rise up the slopes, but at the same time it noticeably decreases when moving from west to east. On the Kuban-Azov lowland, the annual amount of precipitation is 550-600 mm, on the Stavropol Upland it increases to 700-800 mm and decreases to 500-350 mm in the Eastern Ciscaucasia. On the Black Sea coast, the amount of precipitation increases rapidly from north to south (from 700 mm northwest of Novorossiysk to 1650 mm in the Sochi region). In the highlands of the western part of the Greater Caucasus, 2000-3000 mm of precipitation falls, and in the eastern part - only 1000-1500 mm. The amount of precipitation also decreases in the depression between the Rocky and Lateral Ranges, especially in the "shadow" of the Rocky Range, amounting to 650-700 mm. The largest annual amount of precipitation is observed on the windward southwestern slopes of the Greater Caucasus. At the Achishkho station, it is over 3700 mm per year. This is the largest amount of precipitation not only in the Caucasus, but throughout Russia.

Average annual precipitation: Colchis, southern slope of the Western Caucasus - 1.5-2 thousand mm, Western and Middle Ciscaucasia 450-600 mm, Eastern Ciscaucasia, Terek-Kuma lowland -200-350 mm, Kuro-Araks lowland - 200-300 mm, Javakheti-Armenian highland 450-600 mm, Lankaran lowland - 1200 mm. It is warmest in summer in the Kuro-Araks lowland (26-28°C), in the rest of the territory 23-25°C, in the Javakheti-Armenian Highlands 18°C. However, temperature and precipitation are subject to change depending on the height of the mountains, forming altitudinal climatic zonality. So, the average annual temperature on the Black Sea coast is 12-14°С, in the foothills of the Caucasus it is 7-8°С, at an altitude of 2-3 thousand m -3-0°С. In summer, despite the increase in solar radiation with height, the temperature drops by an average of 0.5-0.6 ° C every 100 m, and by 0.3-0.4 ° C in winter. When climbing the mountains, the average annual positive temperature persists only up to a height of 2300-2500 m. On Elbrus it is -10°C. Similar regularities are preserved for average monthly air temperatures. Thus, the average temperature in January in the Ciscaucasia is -2-7 ° С, in the middle and high mountains - from -8 to -13°C; on Elbrus -19°С; in Novorossiysk 3°С, Sochi 5°С. In July, the temperature is 23-25°С everywhere, at an altitude of 2-2.5 thousand m -18°С, 4000 m -2°С.

Quantity precipitation also changes with height. If in the northeastern Ciscaucasia they fall less than 300 m, further to the west 300-400 mm, and in the Western Ciscaucasia 400-500 mm, then already in the low-mountain regions of Stavropol - Nalchik 500-800 mm, at the latitude and height of Vladikavkaz - 800-1000 m (1.5 thousand m), at an altitude of 2 thousand m, an average of 1000-1500 mm; higher the amount of precipitation decreases: Terskol - (3050 m) - 930 mm.

The height of the snow line is 2800-3000 m, in the western part - 3200-3500 m, in the eastern part of the Greater and Lesser Caucasus glaciation is negligible - 3 square meters. km. On B.K. - 1420 km 2, their total number is 2200. Of these, 70% is located on the northern slope, 30% - on the southern. Types of glaciers - mountain-valley (20% of the area), cirque and hanging. Glaciation centers - Elbrus, Kazbek, other peaks of the Central Caucasus in M.K. - Aragats, Zangezur ridge, Javakheti ridge. All glaciers are in retreat (10-20 m/year).

The climate and features of the relief of the Caucasus determine its modern glaciation. Within Russia, there are 1498 glaciers in the Caucasus with a total glaciation area of ​​993.6 km 2, which is 70% of the total number of glaciers and the glaciation area of ​​the Greater Caucasus. The sharp predominance of glaciers on the northern slope is due to orographic features, blizzard transport of snow by western winds beyond the barrier of the Dividing Range, and slightly less insolation than on the southern slope. The snow limit lies at 2800-3200 m in the western part of the Caucasus and rises to 3600-4000 m in the east.

The greatest glaciation is concentrated in the Central Caucasus. The largest massif of modern glaciation is the Elbrus glacial complex (area 122.6 km 2). The two-headed Elbrus is covered with a firn-ice cap about 10 km in diameter, which feeds more than 50 glacial streams radially diverging from it. The largest complex valley glacier in the Caucasus is the Bezengi glacier (length 17.6 km, area 36.2 km 2), located at the foot of the Bezengi wall and feeding the Cherek-Bezengi river. It is followed by the Dykh-Su glaciers (length 13.3 km, area 34.0 km2) and Karaugom (length 13.3 km, area 26.6 km2).

In the Western Caucasus, due to the low height of the mountains, glaciation is small. Its largest areas are concentrated in the Kuban basin near the highest mountain peaks - Dombai-Ulgen, Pshish, etc. The glaciation of the Eastern Caucasus is less significant due to the great dryness of the climate and is mainly represented by small glaciers - cirque, hanging, caro-valley.

The total area of ​​glaciers is 1965 km2. Glaciation reaches its greatest development between Elbrus and Kazbek, from here it gradually decreases to the west and sharply to the east. The most common car and hanging. 20% - valley glaciers. Everyone regresses.



The climate of the Caucasus is very diverse. The northern part of the Caucasus is located within the temperate zone, Transcaucasia - in the subtropical. Such geographical position significantly influences climate formation various parts Caucasus.

The Caucasus is a vivid example of the influence of orography and relief on climate-forming processes. Radiant energy is distributed unevenly due to different angles of its incidence and different heights of surface levels. The circulation of air masses reaching the Caucasus undergoes significant changes, encountering on its way the mountain ranges of both the Greater Caucasus and Transcaucasia. Climatic contrasts appear at relatively short distances. An example is the western, abundantly humidified Transcaucasia and the eastern, with a dry subtropical climate, the Kuro-Araks lowland. The significance of the exposure of slopes is great, which strongly affects the thermal regime and the distribution of precipitation. The climate is influenced by the seas washing the Caucasian Isthmus, especially the Black Sea.

The Black and Caspian Seas moderate the air temperature in summer, contribute to its more even daily course, moisten the adjacent parts of the Caucasus, increase the temperature of the cold season, and reduce temperature amplitudes. The plain eastern Ciscaucasia and the Kuro-Araks lowland, which extends deeply into the isthmus, do not contribute to the condensation of moisture coming from the Caspian Sea. Ciscaucasia is greatly influenced by continental air masses coming from the north, including the Arctic ones, which often significantly reduce the temperature of the warm season. The spur of high East Siberian barometric pressure often lowers the temperature of the cold season. There are cases when cold air, flowing around the Greater Caucasus from the east and west, spreads into Transcaucasia, causing a sharp drop in temperature there.

Air masses coming from the Atlantic Ocean and the Mediterranean ensure high humidity in the western parts of the Caucasus and the slopes of the western exposure ranges. Additional moisture is brought by air masses passing over the Black Sea. The influence of the Caspian Sea is less pronounced.

IN in general terms The climate of the Caucasus changes significantly in three directions: from west to east towards increasing dryness and continentality, from north to south towards an increase in total radiation and radiation balance, and in height on mountain structures, on which altitudinal zonality is clearly manifested.

The total radiation within the Caucasus ranges from 460548 J/sq. cm in the north to 586 152 J / sq. see extreme south. Annual radiation balance from 146538 to 188406 J/sq. see The amount of solar radiation depends not only on latitude, but also on cloudiness. Many peaks of the Caucasus are characterized by persistent cloudiness, so direct solar radiation here is below the average norm. To the east, it increases due to a decrease in humidity. The exceptions are Lankaran and Talysh, where the relief contributes to the condensation of water vapor and an increase in cloudiness.

The value of total radiation and radiation balance in different regions of the Caucasus is not the same due to contrasts in orography, relief, different angles of incidence of sunlight and physical properties underlying surface. In summer, the radiation balance in some regions of the Caucasus approaches the balance of tropical latitudes, so the air temperatures are high here (Ciscaucasia and Transcaucasia plains), and in abundantly humidified areas, high evapotranspiration and, accordingly, increased air humidity are observed.

The air masses that take part in the circulation over the territory of the Caucasus are different. Basically, continental air of temperate latitudes dominates over Ciscaucasia, and subtropical air dominates in Transcaucasia. High-mountain belts are influenced by air masses coming from the west, and the northern slopes of the Greater Caucasus and the Arctic - from the north.

In Ciscaucasia, located south of the band of high barometric pressure, cold air often enters. Over the Black Sea and in the southern part of the Caspian Sea, low pressure remains. Pressure contrasts lead to the spread of cold air to the south. In such a situation, the barrier role of the Greater Caucasus is especially great, which serves as an obstacle to the wide penetration of cold air into the Transcaucasus. Usually its influence is limited to Ciscaucasia and the northern slope of the Greater Caucasus up to about 700 m. It causes a sharp drop in temperature, an increase in pressure and an increase in wind speed.

Intrusions of cold air masses are observed from the northwest and northeast, bypassing the ridges of the Greater Caucasus along the shores of the Caspian and Black Seas. The accumulated cold air rolls over low ridges. and spreads along the western and eastern coasts to Batumi and Lenkoran, causing a decrease in temperatures on the western coast of Transcaucasia to -12 ° C, on the Lankaran lowland to -15 ° C and below. A sharp drop in temperature has a disastrous effect on subtropical crops, and especially on citrus fruits. Baric gradients in these situations between Ciscaucasia and Transcaucasia are sharply contrasting, the spread of cold air from Ciscaucasia to Transcaucasia proceeds very rapidly. Cold winds of high, often catastrophic speeds are known as bora (in the Novorossiysk region) and norda (in the Baku region).

Air masses coming from the west and southwest from the Atlantic Ocean and the Mediterranean have the greatest impact on the western coast of Transcaucasia. When moving further to the east, they, overcoming the ridges located on their way, adiabatically heat up and dry up. Therefore, Eastern Transcaucasia is distinguished by a relatively stable thermal regime and low precipitation.

The mountain structures of the Lesser Caucasus and the Javakheti-Armenian Highlands contribute to the formation of a local anticyclone in winter, which causes a strong drop in temperature. In summer, low pressure sets in over the highlands.

In the second half of summer, the Caucasus experiences the influence of the spur of the Azores barometric maximum, located within the Russian Plain between 50 and 45°N. sh. It determines the decrease in summer cyclonic activity. It is associated with a decrease in precipitation in the second half of summer (compared to the first). At this time, the importance of local convective precipitation increases due to the daily variation of air temperatures.

In the Caucasus, föhns are actively manifested, which are common for mountains with a dissected relief. They are associated with hot weather in spring and summer. Mountain-valley winds and breezes are also characteristic.

On the plains of Ciscaucasia and Transcaucasia, the average July temperature is 24--25 ° C, its increase is observed to the east. The coldest month is January. In the Ciscaucasia, the average January temperature is -4, -5 ° C, in the western Transcaucasia 4-5 ° C, in the eastern 1-2 ° C. At an altitude of 2000 m, the temperature is 13 ° C in July, -7 ° C in January, in the highest zones - 1 ° C in July, and from -18 to -25 ° C in January.

The annual amount of precipitation increases with elevation and at all levels decreases noticeably from west to east (most evenly in high belts). In the Western Ciscaucasia, the amount of precipitation is 450-500 mm, in the foothills and on the Stavropol Upland at an altitude of 600-700 m - up to 900 mm. In the east of Ciscaucasia - 250-200 mm.

In the humid subtropics of Western Transcaucasia on the coastal plains, the annual precipitation reaches 2500 mm (in the Batumi region). Maximum in September. In the Sochi region, 1400 mm, of which 600 mm falls in November-February. On the western slopes of the Greater and Lesser Caucasus, the amount of precipitation increases to 2500 mm, on the slopes of the Meskheti Range up to 3000 mm, and on the Kuro-Araks lowland it decreases to 200 mm. The Lankaran lowland and the eastern slopes of the Talysh ridge are abundantly moistened, where 1500-1800 mm of precipitation falls.

The hydrographic network of the Caucasus is represented by numerous rivers and lakes, the distribution of which over the territory is associated not only with climatic conditions, but also with orography and relief.

Almost all the rivers of the Caucasus originate in the mountains, where a huge amount of moisture accumulates in the form of liquid and solid precipitation and glaciers. With the rise upward due to an increase in precipitation, a decrease in evaporation losses, the annual surface runoff increases, and the density of the river network increases. Rivers originating in the mountains, within the plains of Ciscaucasia and Transcaucasia, play a transit role.

The watershed ridge of the Greater Caucasus delimits the basins of the rivers of the Black, Azov and Caspian Seas.

The flat rivers of Ciscaucasia stand out with a slow flow and a small flood. Some of them originate on the slopes of the Stavropol Upland. Their spring floods are associated with the melting of snow. In summer they either dry up or form chains of lakes (Western and Eastern Manych).

At rivers of mixed nutrition, the upper reaches are located in the mountains, and the lower sections are within the plains. These include Kuban, Kuma, Rioni, Terek, Kuri and Arax.

Typically mountainous are the Bzyb, Kodor, Inguri and the upper sections of most of the rivers of the Caucasus. Their sources are located in the nival zone, the rivers flow in deep, often canyon-like gorges (Sulak, Terek, etc.). They are characterized by high flow rates, rapids, waterfalls.

Depending on the relief, amount and regime of precipitation, the density of the river network of the Caucasus ranges from 0.05 km / sq. km in the east of Ciscaucasia d6 1.62 km/sq. km in the mountains.

The nutrition of rivers starting in the high-mountain belt is snowy, snow-glacial (Kuban, Terek, Rioni, Kodor, etc.). In the rivers of snow-glacier feeding, the maximum discharges are observed not only in spring due to snow melting, but also in summer, as snow and glaciers melt in the upper altitudinal zones.

The rivers of the humid subtropics are predominantly rain-fed, they are characterized by a sharp fluctuation in flow. During heavy rainfall, they turn into stormy powerful streams, carrying a mass of coarse-grained material and unloading it in the lower reaches. In the absence of rain, such rivers turn almost into streams; they belong to the Mediterranean type (rivers between Tuapse and Sochi).

The sources of the rivers of the Lesser Caucasus are located in the belt of 2000-3000 m. Groundwater plays an important role in their nutrition. Snowmelt in spring contributes to a sharp increase in levels and discharges, with minimum discharges in June and July (Kura, Araks).

The turbidity of the waters depends on the nature of the eroded rocks and sediments. Many rivers of the Caucasus, especially Dagestan, are characterized by high turbidity - 5000 - 7000 g / cu. m (clays, shales, sandstones, limestones). The turbidity of the Kura and Terek is high. Rivers flowing in crystalline rocks have the least turbidity.

The hardness and salinity of river waters varies considerably. In the Kura basin, hardness reaches 10–20 mg/l, and mineralization is 2000 kg/l.

The transport value of the rivers of the Caucasus is small. Only in the lower reaches are the Kura, Rioni and Kuban navigable. Many rivers are used for timber rafting and especially widely for irrigation. Hydroelectric power stations have been built on many rivers of the Caucasus (Zangezur cascade, etc.).

There are relatively few lakes in the Caucasus - about 2000. Their area is usually small, with the exception of the mountain lake Sevan (1416 sq. km). On the plains of the Caucasus along the coasts of the Azov and Caspian Seas, lakes of the lagoon and estuary type are common. The Manych lakes are peculiar, forming a whole system. In summer, the mirror of the lakes of the Kuma-Manych depression. sharply reduced, and some dry up. There are no lakes on the lower slopes of the mountains and in the foothills, but higher in the mountains they are quite widespread.

The largest lake is Sevan. Until recently, it occupied an area of ​​1416 sq. km, its maximum depth was 99 m at the absolute height of the water table 1916 m. This caused serious changes in the hydrological regime of the lake and was reflected in other sides. natural conditions the lake basin itself and the surrounding area. In particular, the masses of birds that nested and rested during flights on the group of daughter lakes of Sevan - Gilli disappeared. In connection with the descent of the waters of Sevan, this area turned into vast exposed peat bogs. Dozens of species of animals and birds disappeared, fish resources were catastrophically reduced, especially the resources of the most valuable Sevan trout - ishkhana.

The lake is located in a mountain basin, which is a complex synclinal trough, which in some places has experienced fault dislocations. A well-known role in the formation of the basin was played by the damming of the tectonic valley by a lava flow. A project was developed to utilize this huge reservoir as a powerful source of hydropower and water for irrigation. To increase the flow of the river flowing from the lake. Hrazdan began to drain the upper layer of lake waters, which then passed through 6 hydroelectric stations of the Sevan-Hrazdan cascade. The surface runoff in the upper reaches of the Hrazdan stopped - the Sevan water went through the tunnel to the turbines of the Sevan HPP.

According to the new project for the use of Sevan waters, further lowering of their level is suspended. It will remain at around 1898 m, and the picturesque reservoir will remain within the boundaries close to natural. Through a 48-kilometer tunnel in the Vardenis Range, water is supplied to Sevan from the upper reaches of the river. Arpy. A recreation area with a national park is being created on the shores of the lake, and a strip of land released from the waters of the lake is being afforested. The main problem of the lake and its basin at present is the preservation and restoration of largely unique natural conditions and endemic species of flora and fauna, in particular the named Sevan trout, which is also of great commercial importance. In the future, measures should be taken to raise the level of the lake by 4–5 m.

The basins of mountain lakes are tectonic, karst, volcanic, and cirque. Some occupy depressions in the moraine relief. Volcanic lakes are predominantly dammed, common on the Karabakh plateau and the Armenian Highlands. There are many karst lakes in Western Georgia. Glacial lakes are well preserved in the Teberda basin - Baduksky, Murudzhinsky, Klukhorskoye (on the pass of the same name). There are lakes in the floodplains of the plains of the Caucasus. The dammed lake Ritsa is peculiar and very beautiful. The lakes of Colchis were formed during the formation of the lowland itself, the largest of them is Lake Paleostomi.

Caucasus. They are significant in terms of reserves and diverse in terms of chemical composition and degree of mineralization. Their formation is associated with geotectonic structures and infiltration of atmospheric precipitation. Fissure and formation-fissure waters are common in folded geostructures. The movement of water occurs along the cracks of tectonic faults, faults and overthrusts, along the strike of folds into river valleys.

The mineral composition of groundwater is determined by the composition of rocks. Crystalline rocks are sparingly soluble, therefore The groundwater, circulating in them, are relatively little mineralized. Groundwater in sedimentary deposits is often saturated with readily soluble compounds and highly mineralized. The underground waters of the Caucasus are predominantly cold - up to 20°C. There are subthermal - above 20 and hot - above 42 ° C (the latter are not uncommon within the Greater and Lesser Caucasus).

The chemical composition of the underground waters of the Caucasus is very diverse. Carbonic mineral springs are especially characteristic; There are also chloride waters, hydrogen sulfide waters (Matsesta, Chkhalta), thermal radon waters up to 35°C (Tskhaltubo springs). Mineral water Caucasus are used by numerous resorts.

The climate, orography and relief determine the modern glaciation of the Caucasus. The total area of ​​its glaciers is about 1965 sq. km. (about 1.5% of the entire territory of the Caucasus). The Greater Caucasus is the only mountainous areas Caucasus with a wide development of modern glaciation. The number of glaciers is 2047, the area of ​​glaciation is 1424 sq. km. About 70% of the number of glaciers and the area of ​​glaciation falls on the northern slope and about 30% on the southern slope. The difference is explained by orographic features, blizzard transport of snow by western winds beyond the barrier of the Dividing Range, increased insolation on the southern slope. The most glaciated is the Central Caucasus, where 5 glaciers (Dykhsu, Bezengi, Karaugom on the northern slope, Lekhzir and Tsanner on the southern) have an area of ​​​​approximately 40 square kilometers. km. Their length is more than 12 km. The modern snow boundary of the Greater Caucasus in the southwest lies at an altitude of 2800-3200 m, in the east it rises to 3600 m. The area of ​​glaciers in Transcaucasia is small - a little over 5 sq. km. km (Zanzegur Ridge, Aragats peak). The glaciers of the Caucasus play an important role in feeding the rivers of the Caucasus, causing their full flow and the nature of the alpine-type water regime.

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