The main role in the formation of the climate of the Russian Plain belongs to the radiation factor. Advection is of particular importance. Continentality increases towards the east, southeast. The absence of mountains in the north and west contributes to the penetration of arctic and sea air from temperate latitudes. Atlantic air masses, transformed, reach the Urals. Arctic air comes from the Barents and Kara seas.

Within the plain, especially in its eastern part, the continental air of temperate latitudes dominates. The effect of advection is stronger in winter than in summer. Tropical air in the south and southeast is of some importance.

Cyclonic activity is most actively manifested in the winter half of the year along the Arctic front, usually located in the north of the plain, but often moving towards the Black Sea. In the summer half of the year, three zones of cyclonic activity are formed. The first zone is along the Arctic front, which often shifts to the middle zone of the Russian Plain. The second zone is polar-frontal occlusion along the polar front. The third zone of cyclonic activity occupies a strip from the Crimea to the Middle Volga.

Most of the plain is characterized by winds blowing from southwest to northeast in winter, with the exception of the Caspian lowland, where winds blowing from east to west prevail. AT Lower Volga they change direction to the north. Winds blowing from the northwest and west to the southeast and east are characteristic of summer. The high barometric pressure axis has a significant influence on the direction of the wind.

underlying surface; its flat character contributes to the zonal distribution of radiant energy and the manifestation of advection, which causes a shift in zonal boundaries. The dissection of the plains redistributes heat and moisture and causes a flattened altitudinal zonality and inversions.

Winter on the plain is characterized by stable negative temperatures, in the north it lasts for 6-7 months, in the south for 1-2 months. Localities closer to the Atlantic Ocean or under the influence of the Gulf Stream (Kola) have average January temperatures close to those of Astrakhan.

The vast majority of the territory is characterized by stable snow cover. An increase in annual precipitation is observed in areas with more active cyclonic activity and, conversely, less precipitation occurs in the eastern part of the plain, where the anticyclonic weather regime is more characteristic. Precipitation increases over higher elevations. Precipitation of the warm season usually makes up 50-70% of the annual amount.

The climate of the East European Plain is influenced by its position in temperate and high latitudes, as well as neighboring territories ( Western Europe and North Asia) and the Atlantic and Arctic Oceans. The total solar radiation per year in the north of the plain, in the Pechora basin, reaches 2700 mJ / m 2 (65 kcal / cm 2), and in the south, in the Caspian lowland, 4800-5050 mJ / m 2 (115-120 kcal / cm 2 ). The distribution of radiation over the territory of the plain changes dramatically with the seasons. In winter, radiation is much less than in summer, and more than 60% of it is reflected by the snow cover. In January, the total solar radiation at the latitude Kaliningrad - Moscow - Perm is 50 mJ / m 2 (about 1 kcal / cm 2), and in the southeast of the Caspian lowland about 120 mJ / m 2 (3 kcal / cm 2). The radiation reaches its greatest value in summer and in July, its total values ​​in the north of the plain are about 550 mJ / m 2 (13 kcal / cm 2), and in the south - 700 mJ / m 2 (17 kcal / cm 2).

The lack of moisture during the period of active life of plants leads to droughts, which periodically recur in a significant part of the Russian Plain, especially in the east of the forest-steppes and steppes.

The arrival of cyclones from the North Atlantic and the Southwestern Arctic to the Russian Plain is associated with the intrusion of cold air. It enters the rear part of the cyclone, and then the arctic air penetrates far to the south of the plain. Arctic air enters freely over the entire surface and along the eastern periphery of anticyclones moving slowly from the northwest. Anticyclones often recur in the southeast of the plain, due to the influence of the Asian High. They contribute to the intrusion of cold continental air masses of temperate latitudes, the development of radiative cooling in cloudy weather, low air temperatures, and the formation of a thin, stable snow cover.

In the warm period of the year, from April, cyclonic activity proceeds along the lines of the Arctic and Polar fronts, shifting to the north. Cyclonic weather is most typical for the northwest of the plain, so cool sea air from temperate latitudes often comes to these areas from the Atlantic. It lowers the temperature, but at the same time it heats up from the underlying surface and is additionally saturated with moisture due to evaporation from the moistened surface.

Cyclones contribute to the transfer of cold air, sometimes arctic, from the north to more southern latitudes and cause cooling, and sometimes frost on the soil. The southwestern cyclones (6-12 per season) are associated with the invasion of the plain of humid warm tropical air, which penetrates even into the forest zone. Very warm but dry air is formed in the cores of the spur of the Azores High. It can contribute to the formation of arid types of weather and droughts in the southeast.

The position of the January isotherms in the northern half of the Russian Plain is submeridional, which is associated with greater frequency in the western regions of the Atlantic air and its lesser transformation. average temperature January temperature in the Kaliningrad region is -4°С, in the western part of the compact territory of Russia it is about -10°С, and in the northeast -20°С. In the southern part of the country, the isotherms deviate to the southeast, amounting to -5 ... -6 ° С in the region of the lower reaches of the Don and Volga.

In summer, almost everywhere on the plain, the most important factor in the distribution of temperature is solar radiation, so isotherms, in contrast to winter, are located mainly in accordance with geographic latitude. In the extreme north of the plain, the average temperature in July rises to 8°C, which is associated with the transformation of the air coming from the Arctic. The average July isotherm of 20°C goes through Voronezh to Cheboksary, approximately coinciding with the border between forest and forest-steppe, and the isotherm of 24°C crosses the Caspian lowland.

The distribution of precipitation over the territory of the Russian Plain is primarily dependent on circulation factors (western transport of air masses, the position of the Arctic and polar fronts, and cyclonic activity). Especially many cyclones move from west to east between 55-60°N. (Valdai and Smolensk-Moscow Uplands). This strip is the most humid part of the Russian Plain: the annual precipitation here reaches 700-800 mm in the west and 600-700 mm in the east.

The relief has an important influence on the increase in the annual total precipitation: on the western slopes of the uplands, precipitation is 150-200 mm more than on the lowlands lying behind them. In the southern part of the plain, the maximum precipitation occurs in June, and in middle lane- for July.

In winter, a snow cover forms. In the north-east of the plain, its height reaches 60-70 cm, and the duration of occurrence is up to 220 days a year. In the south, the height of the snow cover decreases to 10-20 cm, and the duration of occurrence is up to 60 days.

The degree of moistening of the territory is determined by the ratio of heat and moisture. It is expressed by various values: a) the coefficient of moisture, which in the East European Plain varies from 0.35 in the Caspian lowland to 1.33 or more in the Pechora lowland; b) dryness index, which varies from 3 in the deserts of the Caspian lowland to 0.45 in the tundra of the Pechora lowland; c) the average annual difference in precipitation and evaporation (mm). In the northern part of the plain, moisture is excessive, since precipitation exceeds evaporation by 200 mm or more. In the zone of transitional moisture from the upper reaches of the Dniester, Don and the mouth of the Kama, the amount of precipitation is approximately equal to evaporation, and the further south from this zone, the more evaporation exceeds precipitation (from 100 to 700 mm), i.e. moisture becomes inadequate.

Differences in the climate of the Russian Plain affect the nature of the vegetation and the presence of a fairly clearly expressed soil-vegetation zonality. B.P. Alisov, taking into account the peculiarities of the radiation regime and atmospheric circulation (transport of air masses, their transformation, cyclonic activity), distinguishes two climatic zones on the East European Plain - subarctic and temperate, and within them five climatic regions. In all areas there is an increase in the continentality of the climate to the east. This is due to the fact that processes associated with the influence of the Atlantic and more active cyclogenesis predominate in the western regions, while the influence of the continent affects the eastern regions. This regularity in climate change is explained by the manifestation of sectorality.

Differences in the climate of the East European Plain affect the nature of the vegetation and the presence of a fairly clearly expressed soil-vegetation zonality. Soddy-podzolic soils are replaced to the south by more fertile ones - a variety of chernozems. natural climatic conditions favorable for active economic activity and residence of the population.



East European (Russian) Plain- one of the largest plains in the world. Among all the plains of our Motherland, only it goes to two oceans. Russia is located in the central and eastern parts plains. It stretches from the coast of the Baltic Sea to the Ural Mountains, from the Barents and White Seas to the Azov and Caspian.

Features of the relief of the Russian Plain

The East European Uplifted Plain consists of uplands with heights of 200-300 m above sea level and lowlands along which large rivers flow. The average height of the plain is 170 m, and the highest - 479 m - on Bugulma-Belebeev Upland in the Ural part. Maximum mark Timan Ridge somewhat smaller (471 m).

According to the features of the orographic pattern within the East European Plain, three bands are clearly distinguished: central, northern and southern. A strip of alternating large uplands and lowlands passes through the central part of the plain: Central Russian, Volga, Bugulma-Belebeevskaya uplands and Common Syrt divided Oka-Don lowland and the Low Trans-Volga region, along which the Don and Volga rivers flow, carrying their waters to the south.

To the north of this strip, low plains predominate. Large rivers flow through this territory - Onega, Northern Dvina, Pechora with numerous high-water tributaries.

The southern part of the East European Plain is occupied by lowlands, of which only the Caspian is located on the territory of Russia.

The climate of the Russian Plain

The climate of the East European Plain is influenced by its position in temperate and high latitudes, as well as neighboring territories (Western Europe and North Asia) and the Atlantic and Arctic Oceans. The climate is temperate thermal regime and medium humidity with increasing continentality to the south and east. The average monthly temperature in January varies from - 8° in the west to - 11°C in the east, the July temperature ranges from 18° to 20°C from northwest to southeast.

All year round the East European Plain is dominated by western air mass transport. Atlantic air brings coolness and rainfall in summer, and warmth and rainfall in winter.

Differences in the climate of the East European Plain affect the nature of the vegetation and the presence of a fairly clearly expressed soil-vegetation zonality. Soddy-podzolic soils are replaced to the south by more fertile ones - a variety of chernozems. The natural and climatic conditions are favorable for active economic activity and population living.

Resources of the Russian Plain

The value of the natural resources of the Russian Plain is determined not only by their diversity and richness, but also by the fact that they are located in the most populated and developed part of Russia.

The East European Plain is located in the eastern part of Europe, and there are 10 countries on its territory, but most of it is located in the west of Russia, which is why its second name is the Russian Plain. The climate of the Russian Plain depends on several factors: geographical position, relief, proximity to the ocean. So in what climatic zones is the Russian Plain located?

general information

The East European Plain is one of the largest plains on the planet. Its area occupies more than 4 million square meters. km. The Russian Plain is bounded in the north by the Arctic Ocean, in the south by the Caspian and Black Seas, the Caucasus Mountains, in the east by the Urals, in the west by the state border of Russia. The whole plain can be divided into 3 parts: central, southern and northern. The central strip is distinguished by large uplands and lowlands. So, for example, the Bugulma-Belebeevskaya Upland, located just in the central part, is the highest point of the plain. Its height is 479 meters.

Rice. 1. Bugulma-Belebeevskaya upland.

Of all the plains of Russia, only the Russian Plain has access to two oceans at once - the Arctic and the Atlantic.

Climate of the East European Plain

Most of the plain lies in the temperate climate zone. It is formed under the influence of air masses brought from the Atlantic Ocean. This type of climate in the East European Plain is characterized by fairly cold winters and warm summers. Depending on the area, the average temperature in summer varies from +12 degrees (for example, the coast of the Bering Sea) to +24 (for example, in the Caspian lowland). The average January temperature varies from -8 degrees in the western part to -16 degrees in the Cis-Urals.

Rice. 2. East European Plain on the map.

The Russian Plain is subject to the western transfer of air masses. Due to the smooth relief of the plain, the transfer of air masses occurs freely. Westward air mass transfer is the movement of air from west to east. The Atlantic air brings coolness and rainfall in summer, and warmth and rainfall in winter.

A frequent occurrence in the cold season is the arrival of cyclones. During this time, from 8 to 12 cyclones can come to the Russian Plain.

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Precipitation is unevenly distributed across the plain. The most humid are the Valdai and Smolensk-Moscow Uplands.

Rice. 3. Valdai Hills.

A characteristic feature of the East European Plain is a clear manifestation of latitudinal zonality (a successive change of zones from tundra to semi-deserts). the average annual precipitation here is 700 mm.

Snow cover is characteristic of the entire territory of the Russian Plain. The duration of snow in the north can be 220 days a year, and in the south - 60 days.

What have we learned?

The East European Plain is characterized by a temperate continental climate. That is, in most of the territory, winters are cold, and summers are warm. The plain is characterized by cyclones, and it is also subject to the influence of western transport.

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The East European Plain is one of the largest on the planet. Its area exceeds 4 million km2. It is located on the continent of Eurasia (in the eastern part of Europe). On the northwestern side, its borders run along the Scandinavian mountain formations, in the southeast - along the Caucasian, in the southwest - along the Central European massifs (Sudet, etc.) There are more than 10 states on its territory, most of it is occupied by Russian Federation. It is for this reason that this plain is also called Russian.

East European Plain: climate formation

In any geographic area, the climate is formed due to some factors. First of all, this is the geographical location, relief and neighboring regions with which a certain territory borders.

So, what exactly affects the climate of this plain? To begin with, it is worth highlighting the ocean areas: the Arctic and Atlantic. Due to their air masses, certain temperatures are set and the amount of precipitation is formed. The latter are unevenly distributed, but this is easily explained by the large territory of such an object as the East European Plain.

Mountains have no less impact than the oceans. along its entire length is not the same: in the southern zone it is much larger than in the northern one. Throughout the year, it changes, depending on the change of seasons (more in summer than in winter due to mountain snow peaks). In July, the highest level of radiation is reached.

Considering that the plain is located in high and temperate latitudes, it mainly dominates on its territory. It prevails mainly in the eastern part.

Atlantic masses

The air masses of the Atlantic dominate the East European Plain throughout the year. In the winter season, they bring rainfall and warm weather, and in the summer, the air is saturated with coolness. Atlantic winds, moving from west to east, change somewhat. Above the earth's surface, they summer time become warmer with a small amount moisture, and in winter - cold with little rainfall. It is during the cold period that the East European Plain, whose climate directly depends on the oceans, is under the influence of Atlantic cyclones. During this season, their number can reach 12. Moving eastward, they can change dramatically, and this, in turn, brings warming or cooling.

And when Atlantic cyclones come from the southwest, the southern part of the Russian Plain is influenced by subtropical air masses, as a result of which a thaw occurs and in winter the temperature can rise to +5 ... 7 ° С.

Arctic air masses

When the East European Plain is under the influence of the north Atlantic and southwestern Arctic cyclones, the climate here changes significantly, even in the southern part. In its territory comes a sharp cooling. Arctic Air Forces tend to move in a north-west direction. Due to anticyclones, which lead to cooling, the snow lies for a long time, the weather is set to be cloudy with low temperatures. As a rule, they are distributed in the southeastern part of the plain.

winter season

Considering how the East European Plain is located, the climate in the winter season differs in different areas. In this regard, the following temperature statistics are observed:

• Northern regions - winter is not very cold, in January, thermometers show an average of -4 ° C.
• In the western zones of the Russian Federation, the weather conditions are somewhat more severe. The average temperature in January reaches -10 °С.
• The northeastern parts are the coldest. Here on thermometers you can see -20 ° C and more.
• In the southern zones of Russia, there is a temperature deviation in the southeast direction. The average is a revenge of -5 ° C.

Temperature regime of the summer season

In the summer season, the East European Plain is under the influence of solar radiation. The climate at this time depends, directly, on this factor. Here, oceanic air masses are no longer of such importance, and the temperature is distributed in accordance with geographic latitude.

So, let's look at the changes by region:

Precipitation

As mentioned above, most of the East European Plain has a temperate continental climate. And it is characterized by a certain amount of precipitation, which is 600-800 mm / year. Their loss depends on several factors. For example, the movement of air masses from the western parts, the presence of cyclones, the location of the polar and arctic fronts. The highest humidity index is observed between the Valdai and Smolensk-Moscow Uplands. During the year, about 800 mm of precipitation falls in the west, and a little less in the east - no more than 700 mm.

In addition, the relief of this territory has a great influence. On the uplands located in the western parts, precipitation falls by 200 millimeters more than on the lowlands. The rainy season in the southern zones falls on the first month of summer (June), and in the middle lane, as a rule, it is July.

In winter, snow falls in this region and a stable cover is formed. The elevation level may vary, given the natural areas of the East European Plain. For example, in the tundra, the snow thickness reaches 600-700 mm. Here he lies for about seven months. And in the forest zone and forest-steppe, the snow cover reaches a height of up to 500 mm and, as a rule, covers the ground for no more than two months.

Most of the moisture falls on the northern zone of the plain, and evaporation is less. In the middle band, these indicators are compared. As for the southern part, here moisture is much less than evaporation, for this reason drought is often observed in this area.

types and brief characteristics

The natural zones of the East European Plain are quite different. This is explained extremely simply - by the large size of this area. There are 7 zones on its territory. Let's take a look at them.

East European Plain and West Siberian Plain: Comparison

The Russian and West Siberian Plains have a number of common features. For example, their geographical location. They are both located on the Eurasian continent. They are influenced by the Arctic Ocean. The territory of both plains has such natural zones as forest, steppe and forest-steppe. There are no deserts and semi-deserts in the West Siberian Plain. The prevailing Arctic air masses have almost the same effect on both geographic areas. They also border on mountains, which directly affect the formation of the climate.

The East European Plain and the West Siberian Plain also have differences. These include the fact that although they are located on the same mainland, they are located in different parts: the first - in Europe, the second - in Asia. They also differ in relief - the West Siberian is considered one of the lowest, so some of its sections are swampy. If we take the territory of these plains as a whole, then in the latter the flora is somewhat poorer than that of the East European.

Climate- this is a long-term weather regime characteristic of a particular area. It manifests itself in a regular change of all types of weather observed in this area.

Climate influences living and non-living nature. In close dependence on the climate are water bodies, soil, vegetation, animals. Individual sectors of the economy, primarily agriculture, are also very dependent on climate.

The climate is formed as a result of the interaction of many factors: the amount of solar radiation entering the earth's surface; atmospheric circulation; the nature of the underlying surface. At the same time, climate-forming factors themselves depend on the geographical conditions of a given area, primarily on geographical latitude.

The geographic latitude of the area determines the angle of incidence of the sun's rays, the receipt of a certain amount of heat. However, obtaining heat from the Sun also depends on the proximity of the ocean. In places far from the oceans, there is little precipitation, and the mode of precipitation is uneven (in the warm period more than in the cold), cloudiness is low, winters are cold, summers are warm, and the annual temperature amplitude is large. Such a climate is called continental, as it is typical of places located in the depths of continents. Above the water surface, a maritime climate is formed, which is characterized by: a smooth course of air temperature, with small daily and annual temperature amplitudes, high cloudiness, a uniform and fairly large amount of precipitation.

The climate is greatly influenced by sea ​​currents. Warm currents warm the atmosphere in the areas where they flow. For example, the warm North Atlantic Current creates favorable conditions for the growth of forests in the southern part of the Scandinavian Peninsula, while most of the island of Greenland, which lies approximately at the same latitudes as the Scandinavian Peninsula, but is outside the zone of influence of the warm current, all year round covered with a thick layer of ice.

plays an important role in shaping the climate relief. You already know that with the rise of the terrain for each kilometer, the air temperature drops by 5-6 ° C. Therefore, on the alpine slopes of the Pamirs, the average annual temperature is 1 ° C, although it is located just north of the tropic.

The location of mountain ranges has a great influence on the climate. For example, the Caucasus Mountains hold back moist sea winds, and their windward slopes facing the Black Sea receive significantly more precipitation than their leeward slopes. At the same time, the mountains serve as an obstacle to the cold northern winds.

There is a dependence of climate and prevailing winds. On the territory of the East European Plain, westerly winds coming from the Atlantic Ocean prevail for almost the entire year, so winters in this area are relatively mild.

The regions of the Far East are under the influence of monsoons. In winter, winds constantly blow from the depths of the mainland. They are cold and very dry, so there is little rainfall. In summer, on the contrary, the winds bring a lot of moisture from the Pacific Ocean. In autumn, when the wind from the ocean subsides, the weather is usually sunny and calm. This is the best time of the year in the area.

Climate characteristics are statistical inferences from long-term weather records (in temperate latitudes, 25-50-year series are used; in the tropics, their duration may be shorter), primarily over the following main meteorological elements: atmospheric pressure, wind speed and direction, temperature and air humidity, cloudiness and precipitation. They also take into account the duration of solar radiation, the visibility range, the temperature of the upper layers of soil and water bodies, the evaporation of water from the earth's surface into the atmosphere, the height and condition of the snow cover, various atmospheric phenomena and ground-based hydrometeors (dew, ice, fog, thunderstorms, snowstorms, etc.) . In the XX century. climatic indicators included characteristics of elements heat balance the earth's surface, such as total solar radiation, radiation balance, the magnitude of heat exchange between the earth's surface and the atmosphere, the cost of heat for evaporation. Complex indicators are also used, i.e., functions of several elements: various coefficients, factors, indices (for example, continentality, aridity, moisture), etc.

Climatic zones

Long-term average values ​​of meteorological elements (annual, seasonal, monthly, daily, etc.), their sums, frequencies, etc. are called climate standards: the corresponding values ​​for individual days, months, years, etc. are considered as a deviation from these norms.

Climate maps are called climatic(temperature distribution map, pressure distribution map, etc.).

Depending on the temperature conditions, prevailing air masses and winds, climatic zones.

The main climatic zones are:

• equatorial;
• two tropical;
• two moderate;
• arctic and antarctic.

Between the main belts there are transitional climatic zones: subequatorial, subtropical, subarctic, subantarctic. In transitional zones, air masses change with the seasons. They come here from neighboring zones, so the climate of the subequatorial zone in summer is similar to the climate of the equatorial zone, and in winter - to the tropical climate; the climate of the subtropical zones in summer is similar to the climate of the tropical, and in winter - with the climate of the temperate zones. This is due to the seasonal movement of atmospheric pressure belts over the globe following the Sun: in summer - to the north, in winter - to the south.

Climatic zones are divided into climatic regions. So, for example, in the tropical zone of Africa, areas of tropical dry and tropical humid climates are distinguished, and in Eurasia, the subtropical zone is divided into areas of the Mediterranean, continental and monsoon climate. In mountainous areas, altitudinal zonation is formed due to the fact that air temperature decreases with height.

Diversity of Earth's climates

The classification of climates provides an ordered system for characterizing climate types, their zoning and mapping. Let us give examples of climate types prevailing over vast territories (Table 1).

Arctic and Antarctic climate zones

Antarctic and arctic climate dominates in Greenland and Antarctica, where the average monthly temperatures are below 0 °C. During the dark winter season, these regions receive absolutely no solar radiation, although there are twilight and auroras. Even in summer, the sun's rays fall on the earth's surface at a slight angle, which reduces the heating efficiency. Most of the incoming solar radiation is reflected by the ice. In both summer and winter, low temperatures prevail in the elevated regions of the Antarctic Ice Sheet. The climate of the interior of Antarctica is much colder than the climate of the Arctic, since the southern mainland is large and high, and the Arctic Ocean moderates the climate, despite the wide distribution of pack ice. In summer, during short periods of warming, drift ice sometimes melts. Precipitation on ice sheets falls in the form of snow or small particles of ice mist. Inland regions receive only 50-125 mm of precipitation annually, but more than 500 mm can fall on the coast. Sometimes cyclones bring clouds and snow to these areas. Snowfalls are often accompanied by strong winds that carry significant masses of snow, blowing it off the slope. Strong katabatic winds with snowstorms blow from the cold glacial sheet, bringing snow to the coast.

Table 1. Climates of the Earth

Climate type	Climate zone	Average temperature, ° С		Mode and amount of atmospheric precipitation, mm	Atmospheric circulation	Territory
Equatorial	Equatorial			During a year. 2000	Warm and humid equatorial air masses form in the area of ​​low atmospheric pressure.	Equatorial regions of Africa, South America and Oceania
tropical monsoon	Subequatorial			Mostly during the summer monsoon, 2000		South and Southeast Asia, West and Central Africa, Northern Australia
tropical dry	Tropical			During the year, 200		North Africa, Central Australia
Mediterranean	Subtropical			Mainly in winter, 500	In summer - anticyclones at high atmospheric pressure; winter - cyclonic activity	Mediterranean, Southern coast of Crimea, South Africa, Southwestern Australia, Western California
subtropical dry	Subtropical			During a year. 120	Dry continental air masses	Inland parts of the continents
temperate maritime	Moderate			During a year. 1000	westerly winds	Western parts of Eurasia and North America
temperate continental	Moderate			During a year. 400	westerly winds	Inland parts of the continents
moderate monsoon	Moderate			Mostly during the summer monsoon, 560		Eastern margin of Eurasia
Subarctic	Subarctic			During the year, 200	Cyclones prevail	Northern margins of Eurasia and North America
Arctic (Antarctic)	Arctic (Antarctic)			During the year, 100	Anticyclones predominate	The water area of ​​the Arctic Ocean and mainland Australia

subarctic continental climate is formed in the north of the continents (see the climate map of the atlas). In winter, arctic air prevails here, which is formed in the regions high pressure. In the eastern regions of Canada, Arctic air is distributed from the Arctic.

Continental subarctic climate in Asia, it is characterized by the largest annual amplitude of air temperature on the globe (60-65 ° С). The continentality of the climate reaches its limit here.

The average temperature in January varies across the territory from -28 to -50 °C, and in lowlands and hollows, due to air stagnation, its temperature is even lower. In Oymyakon (Yakutia), a record negative air temperature for the Northern Hemisphere (-71 °C) was registered. The air is very dry.

Summer in subarctic belt although short, but quite warm. The average monthly temperature in July ranges from 12 to 18 °C (daily maximum is 20-25 °C). Over the summer, more than half of the annual amount of precipitation falls, amounting to 200-300 mm on the flat territory, and up to 500 mm per year on the windward slopes of the hills.

The climate of the subarctic zone of North America is less continental than the corresponding climate of Asia. It has less cold winters and colder summers.

temperate climate zone

The temperate climate of the western coasts of the continents has pronounced features of the maritime climate and is characterized by the predominance of sea air masses throughout the year. It is observed on the Atlantic coast of Europe and the Pacific coast of North America. The Cordilleras are a natural boundary separating the coast with a maritime type of climate from the inland regions. The European coast, except for Scandinavia, is open to the free access of temperate maritime air.

The constant transfer of sea air is accompanied by high cloudiness and causes protracted springs, in contrast to the interior of the continental regions of Eurasia.

winter in temperate zone warm on the western coasts. The warming effect of the oceans is enhanced by warm sea currents washing the western shores of the continents. The average temperature in January is positive and varies across the territory from north to south from 0 to 6 °C. Intrusions of arctic air can lower it (on the Scandinavian coast down to -25°C, and on the French coast down to -17°C). With the spread of tropical air to the north, the temperature rises sharply (for example, it often reaches 10 ° C). In winter, on the western coast of Scandinavia, there are large positive temperature deviations from the average latitude (by 20 ° C). The temperature anomaly on the Pacific coast of North America is smaller and does not exceed 12 °С.

Summer is rarely hot. The average temperature in July is 15-16°C.

Even during the day, the air temperature rarely exceeds 30 °C. Cloudy and rainy weather is typical for all seasons due to frequent cyclones. There are especially many cloudy days on the western coast of North America, where cyclones are forced to slow down in front of the Cordillera mountain systems. In connection with this, the weather regime in the south of Alaska is characterized by great uniformity, where there are no seasons in our understanding. Eternal autumn reigns there, and only plants remind of the onset of winter or summer. Annual rainfall ranges from 600 to 1000 mm, and on the slopes of mountain ranges - from 2000 to 6000 mm.

In conditions of sufficient moisture, broad-leaved forests are developed on the coasts, and in conditions of excessive moisture, coniferous forests. The lack of summer heat reduces the upper limit of the forest in the mountains to 500-700 m above sea level.

The temperate climate of the eastern coasts of the continents has monsoon features and is accompanied seasonal change winds: north-westerly currents prevail in winter, south-easterly ones in summer. It is well expressed on the eastern coast of Eurasia.

In winter, with a northwest wind, cold continental temperate air spreads to the coast of the mainland, which is the reason for the low average temperature of the winter months (from -20 to -25 ° C). Clear, dry, windy weather prevails. In the southern regions of the coast, there is little rainfall. The north of the Amur region, Sakhalin and Kamchatka often fall under the influence of cyclones moving over the Pacific Ocean. Therefore, in winter there is a thick snow cover, especially in Kamchatka, where its maximum height reaches 2 m.

In summer, with a southeasterly wind, temperate sea air spreads on the coast of Eurasia. Summers are warm, with an average July temperature of 14 to 18 °C. Precipitation is frequent due to cyclonic activity. Their annual amount is 600-1000 mm, and most of it falls in the summer. Fog is frequent at this time of the year.

Unlike Eurasia, the eastern coast of North America is characterized by maritime climate features, which are expressed in the predominance of winter precipitation and the marine type of annual air temperature variation: the minimum occurs in February, and the maximum occurs in August, when the ocean is at its warmest.

The Canadian anticyclone, unlike the Asian one, is unstable. It forms far from the coast and is often interrupted by cyclones. Winter here is mild, snowy, wet and windy. In snowy winters, the height of snowdrifts reaches 2.5 m. With a southerly wind, icy conditions often occur. Therefore, some streets in some cities in eastern Canada have iron railings for pedestrians. Summers are cool and rainy. The annual rainfall is 1000 mm.

temperate continental climate it is most clearly expressed on the Eurasian continent, especially in the regions of Siberia, Transbaikalia, northern Mongolia, and also on the territory of the Great Plains in North America.

A feature of the temperate continental climate is the large annual amplitude of air temperature, which can reach 50-60 °C. In the winter months, with a negative radiation balance, the earth's surface cools down. The cooling effect of the land surface on the surface layers of air is especially great in Asia, where a powerful Asian anticyclone forms in winter and cloudy, calm weather prevails. The temperate continental air formed in the area of ​​the anticyclone has a low temperature (-0°...-40°C). In valleys and basins, due to radiation cooling, the air temperature can drop to -60 °C.

In the middle of winter, the continental air in the lower layers becomes even colder than the Arctic. This very cold air of the Asian anticyclone spreads to Western Siberia, Kazakhstan, southeastern regions of Europe.

The winter Canadian anticyclone is less stable than the Asian anticyclone due to the smaller size of the North American continent. Winters here are less severe, and their severity does not increase towards the center of the mainland, as in Asia, but, on the contrary, decreases somewhat due to the frequent passage of cyclones. Continental temperate air in North America is warmer than continental temperate air in Asia.

The formation of a continental temperate climate is significantly influenced by the geographical features of the territory of the continents. In North America, the Cordillera mountain ranges are a natural boundary separating the coast with a maritime climate from the inland regions with a continental climate. In Eurasia, a temperate continental climate is formed over a vast expanse of land, approximately from 20 to 120 ° E. e. Unlike North America, Europe is open to free penetration of sea air from the Atlantic deep into the interior. This is facilitated not only by the western transport of air masses, which prevails in temperate latitudes, but also by the flat nature of the relief, the strong indentation of the coasts and the deep penetration into the land of the Baltic and North Seas. Therefore, a temperate climate of a lesser degree of continentality is formed over Europe compared to Asia.

In winter, the Atlantic sea air, moving over the cold land surface of the temperate latitudes of Europe, retains its physical properties and its influence extends throughout Europe. In winter, as the Atlantic influence weakens, the air temperature decreases from west to east. In Berlin it is 0 °С in January, -3 °С in Warsaw, -11 °С in Moscow. At the same time, the isotherms over Europe have a meridional orientation.

The orientation of Eurasia and North America with a wide front to the Arctic Basin contributes to the deep penetration of cold air masses onto the continents throughout the year. Intense meridional transport of air masses is especially characteristic of North America, where arctic and tropical air often replace each other.

Tropical air entering the plains of North America with southern cyclones is also slowly transforming due to high speed its movement, high moisture content and continuous low cloudiness.

In winter, the result of intense meridional circulation of air masses are the so-called "jumps" of temperatures, their large daily amplitude, especially in areas where cyclones are frequent: in the north of Europe and Western Siberia, the Great Plains of North America.

In the cold period, they fall in the form of snow, a snow cover forms, which protects the soil from deep freezing and creates a supply of moisture in the spring. The height of the snow cover depends on the duration of its occurrence and the amount of precipitation. In Europe, a stable snow cover on the flat territory is formed east of Warsaw, its maximum height reaches 90 cm in the northeastern regions of Europe and Western Siberia. In the center of the Russian Plain, the height of the snow cover is 30–35 cm, and in Transbaikalia it is less than 20 cm. On the plains of Mongolia, in the center of the anticyclonic region, snow cover forms only in some years. The absence of snow, along with the low winter air temperature, causes the presence of permafrost, which is no longer observed anywhere on the globe under these latitudes.

In North America, the Great Plains have little snow cover. To the east of the plains, tropical air begins to take part in the frontal processes more and more, it intensifies the frontal processes, which causes heavy snowfalls. In the Montreal area, the snow cover lasts up to four months, and its height reaches 90 cm.

Summer in the continental regions of Eurasia is warm. The average July temperature is 18-22°C. In dry regions of southeastern Europe and Central Asia the average air temperature in July reaches 24-28 °C.

In North America, continental air is somewhat colder in summer than in Asia and Europe. This is due to the smaller extent of the mainland in latitude, the large indentation of its northern part with bays and fjords, the abundance of large lakes, and the more intense development of cyclonic activity compared to the interior regions of Eurasia.

In the temperate zone, the annual amount of precipitation on the flat territory of the continents varies from 300 to 800 mm; on the windward slopes of the Alps, more than 2000 mm falls. Most of the precipitation falls in the summer, which is primarily due to an increase in the moisture content of the air. In Eurasia, there is a decrease in precipitation across the territory from west to east. In addition, the amount of precipitation also decreases from north to south due to a decrease in the frequency of cyclones and an increase in air dryness in this direction. In North America, a decrease in precipitation across the territory is noted, on the contrary, in the direction to the west. Why do you think?

Most of the land in the continental temperate zone is occupied by mountain systems. These are the Alps, the Carpathians, the Altai, the Sayans, the Cordillera, the Rocky Mountains, and others. In the mountainous regions, the climatic conditions differ significantly from the climate of the plains. In summer, the air temperature in the mountains drops rapidly with altitude. In winter, when cold air masses invade, the air temperature in the plains often turns out to be lower than in the mountains.

The influence of mountains on precipitation is great. Precipitation increases on the windward slopes and at some distance in front of them, and weakens on the leeward slopes. For example, differences in annual precipitation between the western and eastern slopes of the Ural Mountains in places reach 300 mm. In mountains with height, precipitation increases to a certain critical level. In the Alps level most precipitation falls at altitudes of about 2000 m, in the Caucasus - 2500 m.

Subtropical climate zone

Continental subtropical climate determined by the seasonal change of temperate and tropical air. The average temperature of the coldest month in Central Asia is below zero in places, in the northeast of China -5...-10°С. The average temperature of the warmest month is in the range of 25-30°C, while daily highs can exceed 40-45°C.

The most strongly continental climate in the air temperature regime is manifested in the southern regions of Mongolia and in the north of China, where the center of the Asian anticyclone is located in the winter season. Here, the annual amplitude of air temperature is 35-40 °С.

Sharply continental climate in the subtropical zone for the high-mountainous regions of the Pamirs and Tibet, whose height is 3.5-4 km. The climate of the Pamirs and Tibet is characterized by cold winters, cool summers and low rainfall.

In North America, a continental arid subtropical climate is formed in closed plateaus and in intermountain basins located between the Coastal and Rocky Ranges. Summers are hot and dry, especially in the south, where the average July temperature is above 30°C. The absolute maximum temperature can reach 50 °C and above. In Death Valley, a temperature of +56.7 °C was recorded!

Humid subtropical climate characteristic of the eastern coasts of the continents north and south of the tropics. The main distribution areas are the southeastern United States, some southeastern regions of Europe, northern India and Myanmar, eastern China and southern Japan, northeastern Argentina, Uruguay and southern Brazil, the coast of Natal in South Africa and the east coast of Australia. Summer in the humid subtropics is long and hot, with the same temperatures as in the tropics. The average temperature of the warmest month exceeds +27 °С, and the maximum temperature is +38 °С. Winters are mild, with average monthly temperatures above 0°C, but occasional frosts have a detrimental effect on vegetable and citrus plantations. In the humid subtropics, the average annual precipitation ranges from 750 to 2000 mm, the distribution of precipitation over the seasons is quite uniform. In winter, rains and rare snowfalls are brought mainly by cyclones. In summer, precipitation falls mainly in the form of thunderstorms associated with powerful inflows of warm and humid oceanic air, which are characteristic of the monsoonal circulation of East Asia. Hurricanes (or typhoons) appear in late summer and autumn, especially in the Northern Hemisphere.

subtropical climate with dry summers is typical of the western coasts of the continents north and south of the tropics. In Southern Europe and North Africa, such climatic conditions are typical for the Mediterranean coasts, which was the reason to call this climate also mediterranean. A similar climate is in southern California, the central regions of Chile, in the extreme south of Africa and in a number of areas in southern Australia. All these regions have hot summers and mild winters. As in the humid subtropics, there are occasional frosts in winter. In inland areas, summer temperatures are much higher than on the coasts, and often the same as in tropical deserts. In general, clear weather prevails. In summer, on the coasts, near which ocean currents pass, there are often fogs. For example, in San Francisco, summers are cool, foggy, and the warmest month is September. The maximum precipitation is associated with the passage of cyclones in winter, when the prevailing air currents mix towards the equator. The influence of anticyclones and downward air currents over the oceans determine the dryness of the summer season. The average annual rainfall in a subtropical climate ranges from 380 to 900 mm and reaches maximum values on coasts and mountain slopes. In the summer, there is usually not enough rainfall for the normal growth of trees, and therefore a specific type of evergreen shrub vegetation develops there, known as maquis, chaparral, mal i, macchia and fynbosh.

Equatorial climate zone

Equatorial type of climate distributed in equatorial latitudes in the Amazon basin in South America and the Congo in Africa, on the Malay Peninsula and on the islands of Southeast Asia. Usually the average annual temperature is about +26 °C. Due to the high noon position of the Sun above the horizon and the same length of the day throughout the year, seasonal temperature fluctuations are small. Moist air, cloudiness and dense vegetation prevent nighttime cooling and maintain maximum daytime temperatures below +37 °C, lower than at higher latitudes. The average annual rainfall in the humid tropics ranges from 1500 to 3000 mm and is usually evenly distributed over the seasons. Precipitation is mainly associated with the intratropical convergence zone, which is located slightly north of the equator. Seasonal shifts of this zone to the north and south in some areas lead to the formation of two precipitation maxima during the year, separated by drier periods. Every day, thousands of thunderstorms roll over the humid tropics. In the intervals between them, the sun shines in full force.