Names

What climate is typical for Russia: arctic, subarctic, temperate and subtropical. Earth's climate. Climate-forming factors on Earth Very warm and humid climate

The climate of Russia has a special differentiation, incomparable with any other country in the world. This is due to the wide extent of the country across Eurasia, the heterogeneity of the location of reservoirs and the great variety of relief: from high mountain peaks to plains lying below sea level.

Russia is predominantly located in middle and high latitudes. Due to this, the weather conditions in most of the country are severe, the change of seasons is clear, and the winters are long and frosty. The Atlantic Ocean has a significant influence on the climate of Russia. Despite the fact that its waters do not come into contact with the territory of the country, it controls the transfer of air masses in temperate latitudes, where most of the country is located. Since there are no high mountains in the western part, the air masses pass unhindered up to the Verkhoyansk Range. In winter, they help to mitigate frosts, and in summer they provoke cooling and precipitation.

Climatic zones and regions of Russia

(Map-scheme of climatic zones of Russia)

On the territory of Russia there are 4 climatic zones:

arctic climate

(Islands of the Arctic Ocean, coastal regions of Siberia)

Arctic air masses prevailing year-round, combined with extremely low solar exposure, are the cause of severe weather conditions. In winter, during the polar night, the average daily temperature does not exceed -30°C. In summer, most of the sun's rays are reflected off the surface of the snow. Therefore, the atmosphere does not warm up above 0 ° C ...

subarctic climate

(Region along the Arctic Circle)

In winter, weather conditions are close to arctic, but summers are warmer (in the southern parts, the air temperature can rise up to +10°C). Precipitation exceeds evaporation...

Temperate climate

Continental(West Siberian Plain in the south and in the central part). The climate is characterized by low rainfall and a wide range of temperatures in winter and summer.
temperate continental(European part). The western transport of air masses brings air from the Atlantic Ocean. In this regard, winter temperatures rarely drop to -25 ° C, thaws occur. Summer is warm: in the south up to +25°С, in the northern part up to +18°С. Precipitation falls unevenly from 800 mm per year in the northwest to 250 mm in the south.
sharply continental(Eastern Siberia). The inland position and the absence of the influence of the oceans explain the strong heating of the air during the short summer (up to +20°C) and the sharp cooling in winter (reaches -48°C). The annual rainfall does not exceed 520 mm.
Monsoon continental(Southern part of the Far East). With the onset of winter, dry and cold continental air arrives, due to which the air temperature drops to -30 ° C, but there is little precipitation. In summer, under the influence of air masses from the Pacific Ocean, the temperature cannot rise above +20°C.

subtropical climate

(Black Sea coast, Caucasus)

A narrow strip of subtropical climate is protected by the mountains of the Caucasus from the passage of cold air masses. This is the only corner of the country where the air temperature is positive during the winter months, and the duration of the summer is much longer than in the rest of the country. Marine humid air produces up to 1000 mm of precipitation per year ...

Climatic zones of Russia

(Map of climatic zones of Russia)

Zoning takes place on 4 conditional areas:

First- tropical ( Southern parts of Russia);
Second- subtropical ( Primorye, western and northwestern regions);
Third- moderate ( Siberia, Far East);
4th- polar ( Yakutia, more northern regions of Siberia, the Urals and the Far East).

In addition to the four main zones, there is the so-called "special" zone, which includes areas beyond the Arctic Circle, as well as Chukotka. The division into areas with approximately similar climate occurs due to uneven heating of the earth's surface by the Sun. In Russia, this division coincides with meridians that are multiples of 20: 20th, 40th, 60th and 80th.

The climate of the regions of Russia

Each region of the country is characterized by special climatic conditions. In the northern regions of Siberia and Yakutia, negative average annual temperatures and a short summer are observed.

A distinctive feature of the Far Eastern climate is its contrast. Traveling towards the ocean, one notices a change from continental to monsoonal climate.

In Central Russia, the division into seasons is distinct: a hot summer gives way to a short autumn, and after a cool winter, spring comes with an increased level of precipitation.

The climate of the South of Russia is ideal for recreation: the sea does not have time to cool much during the warm winter, and the tourist season begins at the end of April.

Climate and seasons of the regions of Russia:

The diversity of the climate of Russia is due to the vastness of the territory and openness to the Arctic Ocean. The large length explains the significant difference in average annual temperatures, the uneven effects of solar radiation and heating of the country. For the most part, severe weather conditions are noted with a pronounced continental character and a clear change in temperature regimes and precipitation according to the seasons.

In the article brought to your attention, we want to talk about the types of climate in Russia. Weather conditions remain always the same, despite the fact that they can change and transform slightly. This constancy makes some regions attractive for recreation, while others - difficult to survive.

It is important to note that Russia's climate is unique and cannot be found in any other country. Of course, this can be explained by the vast expanses of our state and its length. And the uneven location of water resources and the diversity of the relief only contribute to this. On the territory of Russia, you can find both high mountain peaks and plains that lie below sea level.

Climate

Before we look at the types of climate in Russia, we suggest getting acquainted with this term itself.

Thousands of years ago in ancient Greece, people discovered a connection between the weather, which is regularly repeated, and the angle of incidence of the sun's rays on the Earth. At the same time, the word "climate" began to be used for the first time, meaning slope. What did the Greeks mean by this? It's very simple: climate is the inclination of the sun's rays relative to the earth's surface.

What is meant by climate today? This term is commonly used to call the long-term weather regime prevailing in a given area. It is determined by observations over many years. What are the characteristics of the climate? These include:

temperature;
the amount of precipitation;
precipitation regime;
Direction of the wind.

This is, so to speak, the average state of the atmosphere in a certain area, which depends on many factors. What exactly is at stake, you will learn in the next section of the article.

Factors influencing climate formation

Considering the climatic zones and types of climate in Russia, one cannot but pay attention to the factors that are fundamental for their formation.

Climate-forming factors in Russia:

geographical position;
relief;
large reservoirs;
solar radiation;
wind.

What is the main climate-forming factor? Of course, the angle of incidence of the sun's rays on the surface of the Earth. It is this slope that leads to the fact that different territories receive an unequal amount of heat. It depends on the geographic latitude. Therefore, it is said that the climate of any locality, to begin with, depends on the geographical latitude.

Imagine this situation: our Earth, or rather its surface, is homogeneous. Let's assume that this is a continuous land, which consists of plains. If this were the case, then our story could be completed on climate-forming factors. But the surface of the planet is far from homogeneous. We can find continents, mountains, oceans, plains and so on on it. They are the reason for the existence of other factors that affect the climate.

Particular attention can be paid to the oceans. What is it connected with? Of course, with the fact that water masses heat up very quickly, and cool down extremely slowly (compared to land). And the seas and oceans are a significant part of the surface of our planet.

Speaking about the types of climate on the territory of Russia, of course, I would like to pay special attention to the geographical position of the country, since this factor is fundamental. In addition, the distribution of solar radiation and air circulation depend on the HP.

We propose to highlight the main features of the geographical position of Russia:

large extent from north to south;
availability of access to three oceans;
simultaneous presence in four climatic zones at once;
the presence of territories that are far removed from the oceans.

Types

In this section of the article you can see the table "Types of climates in Russia". Before that, a little preface. Our country is so large that it stretches for four and a half thousand kilometers from north to south. Most of the area is located in the temperate climate zone (from the Kaliningrad region to Kamchatka). However, even in the temperate zone, the influence of the oceans is not uniform. Now let's move on to the table.

	Location	t (January)	Rainfall (mm)		Vegetation
Arctic	Islands of the Arctic Ocean		200 to 400		Moss, lichen and algae.
Subarctic	Russian and West Siberian Plains outside the Arctic Circle		400 to 800	UVM and AVM	Polar varieties of willow and birch, as well as lichens.
temperate continental	European part of the country		600 to 800		Larch, maple, ash, spruce, pine, cedar, shrubs, herbs, oak, cranberries, feather grass and so on.
Continental	Western part of Siberia		400 to 600		Siberian and Daurian larch, honeysuckle, spruce, pine, feather grass, wild rosemary.
sharp continental	East of Siberia		200 to 400		Wormwood, Dahurian larch.

From the table on geography “Types of climates in Russia” presented in this section of the article, it becomes clear how diverse our country is. But the characteristics of the belts are given extremely concisely, we propose to consider each of them in more detail.

Arctic

The first in our table is the arctic type of weather conditions. Where can it be found? These are zones located near the pole. In total, two types of arctic climate are distinguished:

in the Antarctic;
in the Arctic.

With regard to weather conditions, these territories6 are distinguished by their harsh nature, which does not imply comfortable living for people in this area. Temperatures are sub-zero all year round, and the polar summer comes for only a few weeks or is absent altogether. The temperature at this moment does not exceed ten degrees Celsius. There is very little rainfall in these areas. Based on such weather conditions, there is very little vegetation in the Arctic belt.

Moderate

Considering the types of climate in Russia, one cannot lose sight of the temperate zone, since these are the most common weather conditions in our country.

What characterizes the temperate climate zone? First of all, this is the division of the year into four seasons. As you know, two of them are transitional - spring and autumn, in summer it is warm in these territories, and cold in winter.

Another feature is periodic cloudiness. Precipitation here is a fairly common occurrence, they are formed under the influence of cyclones and anticyclones. There is one interesting pattern: the closer the area is to the ocean, the more noticeable this effect.

It is also important to note that most of our country is located in a temperate climate. In addition, such weather conditions are characteristic of the United States and much of Europe.

Subpolar

Speaking about the characteristics of the types of climate in Russia, one cannot ignore the intermediate option. For example, anyone can determine the climate in the Arctic, but what about the tundra? Difficult to answer? It is important to note that this territory simultaneously combines a temperate and polar climate. For this reason, scientists have identified intermediate climatic zones.

Now we are talking about northern Russia. There is very poor evaporation, but an incredibly high level of precipitation. All this leads to the formation of swamps. Quite severe weather conditions: short summer with a maximum temperature of fifteen degrees above zero, long and cold winters (up to -45 degrees Celsius).

Nautical

Although this species is not included in the main types of Russian climate, I would like to pay a little attention to it. Here you can make small distinctions:

moderate;
tropical.

These varieties of maritime climate have similarities, despite the fact that there are a number of impressive differences. As the name implies, the maritime climate is typical for coastal areas. Here you can observe a very smooth transition of the seasons, minimal temperature fluctuations. Its characteristic features:

strong wind;
high cloudiness;
constant humidity.

Continental

Among the types of climate in Russia, it is worth highlighting the continental. It can be divided into several types:

moderate;
cutting;
normal.

The most striking example is the central part of Russia. Among the features of the climate are the following:

sunny weather;
anticyclones;
strong temperature fluctuations (daily and annual);
rapid change from winter to summer.

As can be seen from the table, these regions are rich in vegetation, and the temperature varies greatly depending on the season.

The content of the article

CLIMATE, long-term weather patterns in the area. The weather at any given time is characterized by certain combinations of temperature, humidity, wind direction and speed. In some types of climate, the weather changes significantly every day or seasonally, in others it remains the same. Climate descriptions are based on statistical analysis of average and extreme meteorological characteristics. As a factor in the natural environment, climate influences the geographic distribution of vegetation, soils and water resources and, consequently, land use and the economy. Climate also has an impact on living conditions and human health.

Climatology is the science of climate that studies the causes of the formation of different types of climate, their geographical location and the relationship between climate and other natural phenomena. Climatology is closely related to meteorology - a branch of physics that studies the short-term states of the atmosphere, i.e. weather.

CLIMATE FORMING FACTORS

The position of the earth.

When the Earth revolves around the Sun, the angle between the polar axis and the perpendicular to the plane of the orbit remains constant and amounts to 23° 30°. This movement explains the change in the angle of incidence of the sun's rays on the earth's surface at noon at a certain latitude during the year. The greater the angle of incidence of the sun's rays on the Earth in a given place, the more efficiently the Sun heats the surface. Only between the Northern and Southern tropics (from 23° 30º N to 23° 30º S) does the sun's rays fall vertically on the Earth at certain times of the year, and here the Sun always rises high above the horizon at noon. Therefore, in the tropics it is usually warm at any time of the year. At higher latitudes, where the Sun is lower above the horizon, the heating of the earth's surface is less. There are significant seasonal changes in temperature (which does not happen in the tropics), and in winter the angle of incidence of the sun's rays is relatively small and the days are much shorter. At the equator, day and night are always of equal duration, while at the poles the day lasts the entire summer half of the year, and in winter the sun never rises above the horizon. The length of the polar day only partly compensates for the low position of the Sun above the horizon, and as a result, the summer here is cool. In dark winters, the polar regions quickly lose heat and become very cold.

Distribution of land and sea.

Water heats up and cools down more slowly than land. Therefore, the air temperature over the oceans has less daily and seasonal changes than over the continents. In coastal areas, where winds blow from the sea, summers are generally cooler and winters warmer than in the interior of the continents at the same latitude. The climate of such windward coasts is called maritime. The interior regions of the continents in temperate latitudes are characterized by significant differences in summer and winter temperatures. In such cases, one speaks of a continental climate.

Water areas are the main source of atmospheric moisture. When winds blow from warm oceans to land, there is a lot of precipitation. Windward coasts tend to have higher relative humidity and cloudiness and more foggy days than inland regions.

Atmospheric circulation.

The nature of the baric field and the rotation of the Earth determine the general circulation of the atmosphere, due to which heat and moisture are constantly redistributed over the earth's surface. Winds blow from areas of high pressure to areas of low pressure. High pressure is usually associated with cold, dense air, while low pressure is associated with warm, less dense air. The rotation of the Earth causes air currents to deviate to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. This deviation is called the Coriolis effect.

In both the Northern and Southern Hemispheres, there are three main wind zones in the surface layers of the atmosphere. In the intratropical convergence zone near the equator, the northeast trade wind converges with the southeast. Trade winds originate in subtropical areas of high pressure, most developed over the oceans. Air currents, moving towards the poles and deviating under the influence of the Coriolis force, form the predominant western transport. In the region of polar fronts of temperate latitudes, western transport meets cold air of high latitudes, forming a zone of baric systems with low pressure in the center (cyclones) moving from west to east. Although the air currents in the polar regions are not so pronounced, polar eastward transport is sometimes distinguished. These winds blow mainly from the northeast in the Northern Hemisphere and from the southeast in the Southern Hemisphere. Masses of cold air often penetrate temperate latitudes.

Winds in the areas of convergence of air currents form ascending air currents, which cool with height. Cloud formation is possible, often accompanied by precipitation. Therefore, in the intratropical convergence zone and frontal zones in the belt of predominant western transport, a lot of precipitation falls.

Winds blowing in higher layers of the atmosphere close the circulation system in both hemispheres. Air rising up in convergence zones rushes into areas of high pressure and sinks there. At the same time, with increasing pressure, it heats up, which leads to the formation of a dry climate, especially on land. Such downward air currents determine the climate of the Sahara, located in the subtropical high pressure belt in North Africa.

Seasonal changes in heating and cooling cause seasonal movements of the main baric formations and wind systems. Wind zones in summer shift towards the poles, which leads to changes in weather conditions at a given latitude. Thus, the African savannahs, covered with grassy vegetation with sparsely growing trees, are characterized by rainy summers (due to the influence of the intratropical convergence zone) and dry winters, when a high pressure area with descending air currents shifts to this territory.

Seasonal changes in the general circulation of the atmosphere are also affected by the distribution of land and sea. In summer, when the Asian continent warms up and a lower pressure area is established above it than over the surrounding oceans, the coastal southern and southeastern regions are affected by moist air currents directed from the sea to land and bringing heavy rains. In winter, air flows from the cold surface of the mainland to the oceans, and much less rain falls. These winds, which change direction with the seasons, are called monsoons.

ocean currents

are formed under the influence of surface winds and differences in water density due to changes in its salinity and temperature. The direction of the currents is influenced by the Coriolis force, the shape of the sea basins and the outlines of the coasts. In general, the circulation of ocean currents is similar to the distribution of air currents over the oceans and occurs clockwise in the Northern Hemisphere and counterclockwise in the Southern Hemisphere.

Crossing the warm currents heading towards the poles, the air becomes warmer and more humid and has a corresponding effect on the climate. Ocean currents heading towards the equator carry cool waters. Passing along the western outskirts of the continents, they lower the temperature and moisture content of the air, and, accordingly, the climate under their influence becomes cooler and drier. Due to the condensation of moisture near the cold surface of the sea, fog often occurs in such areas.

The relief of the earth's surface.

Large landforms have a significant impact on the climate, which varies depending on the height of the terrain and the interaction of air currents with orographic obstacles. The air temperature usually decreases with height, which leads to the formation of a cooler climate in the mountains and on the plateau than in the adjacent lowlands. In addition, hills and mountains form obstacles that force the air to rise and expand. As it expands, it cools. This cooling, called adiabatic, often results in moisture condensation and the formation of clouds and precipitation. Most of the precipitation caused by the barrier effect of mountains falls on their windward side, while the leeward side remains in the "rain shadow". Air descending on leeward slopes heats up as it compresses, creating a warm, dry wind known as a foehn.

CLIMATE AND LATITUDE

In climatic surveys of the Earth, it is expedient to consider latitudinal zones. The distribution of climatic zones in the Northern and Southern hemispheres is symmetrical. Tropical, subtropical, temperate, subpolar and polar zones are located north and south of the equator. Baric fields and zones of prevailing winds are also symmetrical. Consequently, most climate types in one hemisphere can be found at similar latitudes in the other hemisphere.

MAIN CLIMATE TYPES

The classification of climates provides an ordered system for characterizing climate types, their zoning and mapping. Climate types that prevail over vast areas are called macroclimates. A macroclimatic region should have more or less uniform climatic conditions that distinguish it from other regions, although they are only a generalized characteristic (since there are no two places with an identical climate), more in line with realities than the allocation of climatic regions only on the basis of belonging to a certain latitude. - geographic zone.

Ice sheet climate

dominates Greenland and Antarctica, where average monthly temperatures are below 0 ° C. During the dark winter season, these regions do not receive solar radiation at all, 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 rocks. Strong katabatic winds with snowstorms blow from the cold ice sheet, bringing snow to the coast.

subpolar climate

manifests itself in the tundra regions on the northern outskirts of North America and Eurasia, as well as on the Antarctic Peninsula and adjacent islands. In eastern Canada and Siberia, the southern boundary of this climatic zone runs well south of the Arctic Circle due to the strongly pronounced influence of vast land masses. This leads to long and extremely cold winters. Summers are short and cool, with average monthly temperatures rarely exceeding +10°C. To some extent, long days compensate for the short duration of summer, but in most of the territory the heat received is not enough to completely thaw the soil. Permanently frozen ground, called permafrost, inhibits plant growth and the infiltration of melt water into the ground. Therefore, in summer, flat areas turn out to be swampy. On the coast, winter temperatures are somewhat higher, and summer temperatures are somewhat lower than in the interior of the mainland. In summer, when humid air is over cold water or sea ice, fog often occurs on Arctic coasts.

The annual amount of precipitation usually does not exceed 380 mm. Most of them fall as rain or snow in summer, when cyclones pass. On the coast, the bulk of precipitation can be brought by winter cyclones. But the low temperatures and clear weather of the cold season, characteristic of most areas with a subpolar climate, are unfavorable for significant snow accumulation.

subarctic climate

It is also known under the name "taiga climate" (according to the predominant type of vegetation - coniferous forests). This climatic zone covers the temperate latitudes of the Northern Hemisphere - the northern regions of North America and Eurasia, located immediately south of the subpolar climatic zone. There are sharp seasonal climatic differences due to the position of this climatic zone at fairly high latitudes in the interior of the continents. Winters are long and extremely cold, and the further north you go, the shorter the days. Summers are short and cool with long days. In winter, the period with negative temperatures is very long, and in summer the temperature can sometimes exceed +32° С. the annual temperature range reaches 62 ° C. A milder climate is typical for coastal areas, such as southern Alaska or northern Scandinavia.

In most of the considered climatic zone, less than 500 mm of precipitation per year falls, and their amount is maximum on the windward coasts and minimum in the interior of Siberia. Very little snow falls in winter, snowfalls are associated with rare cyclones. Summers are usually wetter, and it rains mainly during the passage of atmospheric fronts. The coasts are often foggy and overcast. In winter, in severe frosts, icy fogs hang over the snow cover.

Humid continental climate with short summers

characteristic of a vast band of temperate latitudes of the Northern Hemisphere. In North America, it extends from the prairies in south-central Canada to the coast of the Atlantic Ocean, and in Eurasia it covers most of Eastern Europe and parts of Central Siberia. The same type of climate is observed in the Japanese island of Hokkaido and in the south of the Far East. The main climatic features of these regions are determined by the prevailing westerly transport and the frequent passage of atmospheric fronts. In severe winters, average air temperatures can drop to -18 ° C. Summers are short and cool, with a frost-free period of less than 150 days. The annual temperature range is not as large as in the subarctic climate. In Moscow, the average January temperatures are -9° C, July - +18° C. In this climatic zone, spring frosts pose a constant threat to agriculture. In the coastal provinces of Canada, in New England and on about. Hokkaido's winters are warmer than inland areas, as easterly winds occasionally bring in warmer ocean air.

Annual rainfall ranges from less than 500 mm in the interior of the continents to over 1000 mm on the coasts. In most of the region, precipitation occurs mainly in summer, often during thunderstorms. Winter precipitation, mainly in the form of snow, is associated with the passage of fronts in cyclones. Blizzards are often observed in the rear of a cold front.

Humid continental climate with long summers.

Air temperatures and the duration of the summer season increase to the south in areas of humid continental climate. This type of climate is manifested in the temperate latitudinal zone of North America from the eastern part of the Great Plains to the Atlantic coast, and in southeastern Europe - in the lower reaches of the Danube. Similar climatic conditions are also expressed in northeastern China and central Japan. Here, too, western transport predominates. The average temperature of the warmest month is +22°С (but temperatures can exceed +38°С), summer nights are warm. Winters are not as cold as in areas of humid continental climate with short summers, but temperatures sometimes drop below 0°C. in January -4° С, and in July - +24° С. On the coast, annual temperature amplitudes decrease.

Most often, in a humid continental climate with a long summer, from 500 to 1100 mm of precipitation falls annually. The greatest amount of precipitation is brought by summer thunderstorms during the growing season. In winter, rains and snowfalls are mainly associated with the passage of cyclones and related fronts.

Maritime climate of temperate latitudes

inherent in the western coasts of the continents, primarily in northwestern Europe, the central part of the Pacific coast of North America, southern Chile, southeastern Australia and New Zealand. The prevailing westerly winds blowing from the oceans have a softening effect on the course of air temperature. Winters are mild with average temperatures of the coldest month above 0°C, but when the Arctic air currents reach the coasts, there are also frosts. Summers are generally quite warm; during intrusions of continental air during the daytime, the temperature can rise to + 38 ° C for a short time. This type of climate with a small annual temperature amplitude is the most moderate among the climates of temperate latitudes. For example, in Paris, the average temperature in January is + 3 ° C, in July - + 18 ° C.

In areas of temperate maritime climate, the average annual precipitation ranges from 500 to 2500 mm. The windward slopes of the coastal mountains are the most humid. Precipitation is fairly even throughout the year in many areas, with the exception being the Pacific Northwest of the United States, which has very wet winters. Cyclones moving from the oceans bring a lot of precipitation to the western continental margins. In winter, as a rule, cloudy weather persists with light rains and occasional short-term snowfalls. Fogs are common on the coasts, especially in summer and autumn.

Humid subtropical climate

characteristic of the eastern coasts of the continents north and south of the tropics. The main areas of distribution 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°C, and the maximum is +38°C. 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

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 coasts of the Mediterranean Sea, which was the reason to call this climate also Mediterranean. The same 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 westerly air currents shift towards the equator. The influence of anticyclones and downward air currents under the oceans determine the dryness of the summer season. The average annual precipitation in a subtropical climate varies from 380 to 900 mm and reaches maximum values on the 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, mali, machia and fynbosh.

Semi-arid climate of temperate latitudes

(synonym - steppe climate) is characteristic mainly for inland regions, remote from the oceans - sources of moisture - and usually located in the rain shadow of high mountains. The main regions with a semi-arid climate are the intermountain basins and the Great Plains of North America and the steppes of central Eurasia. Hot summers and cold winters are due to the inland position in temperate latitudes. At least one winter month has an average temperature below 0 ° C, and the average temperature of the warmest summer month exceeds + 21 ° C. The temperature regime and the duration of the frost-free period vary significantly depending on latitude.

The term "semiarid" is used to characterize this climate because it is less dry than the actual arid climate. The average annual precipitation is usually less than 500 mm but more than 250 mm. Since the development of steppe vegetation at higher temperatures requires more precipitation, the latitudinal-geographical and altitudinal position of the area is determined by climatic changes. For a semi-arid climate, there are no general regularities in the distribution of precipitation throughout the year. For example, areas bordering the subtropics with dry summers experience a maximum of precipitation in winter, while areas adjacent to areas of a humid continental climate experience rainfall mainly in summer. Mid-latitude cyclones bring most of the winter precipitation, which often falls as snow and can be accompanied by strong winds. Summer thunderstorms often come with hail. The amount of precipitation varies greatly from year to year.

Arid climate of temperate latitudes

is inherent mainly in the Central Asian deserts, and in the western United States - only in small areas in intermountain basins. Temperatures are the same as in regions with a semi-arid climate, but the precipitation here is not enough for the existence of a closed natural vegetation cover and the average annual amounts usually do not exceed 250 mm. As in semi-arid climatic conditions, the amount of precipitation that determines aridity depends on the thermal regime.

Semi-arid climate of low latitudes

mostly typical of the margins of tropical deserts (eg the Sahara and the deserts of central Australia), where downdrafts in subtropical high pressure zones preclude precipitation. The climate under consideration differs from the semi-arid climate of temperate latitudes by very hot summers and warm winters. Average monthly temperatures are above 0°C, although frosts sometimes occur in winter, especially in areas furthest from the equator and located at high altitudes. The amount of precipitation required for the existence of dense natural herbaceous vegetation is higher here than in temperate latitudes. In the equatorial zone, it rains mainly in summer, while on the outer (northern and southern) margins of the deserts, the maximum precipitation occurs in winter. Precipitation mostly falls in the form of thunderstorms, and in winter the rains are brought by cyclones.

Arid climate of low latitudes.

This is a hot dry climate of tropical deserts, stretching along the Northern and Southern tropics and being influenced by subtropical anticyclones for most of the year. Salvation from the sweltering summer heat can only be found on the coasts washed by cold ocean currents, or in the mountains. On the plains, the average summer temperatures noticeably exceed + 32 ° C, winter ones are usually above + 10 ° C.

In most of this climatic region, the average annual precipitation does not exceed 125 mm. It happens that at many meteorological stations for several years in a row precipitation is not recorded at all. Sometimes the average annual precipitation can reach 380 mm, but this is still enough only for the development of sparse desert vegetation. Occasionally, precipitation occurs in the form of short-lived heavy thunderstorms, but the water quickly drains to form flash floods. The driest regions are along the western coasts of South America and Africa, where cold ocean currents prevent cloud formation and precipitation. These coasts often have fogs formed by the condensation of moisture in the air over the colder surface of the ocean.

Variable humid tropical climate.

Areas with such a climate are located in tropical sublatitudinal zones, a few degrees north and south of the equator. This climate is also called tropical monsoon, as it prevails in those parts of South Asia that are influenced by monsoons. Other areas with such a climate are the tropics of Central and South America, Africa and Northern Australia. Average summer temperatures are usually approx. + 27 ° С, and winter - approx. + 21 ° C. The hottest month, as a rule, precedes the summer rainy season.

Average annual rainfall ranges from 750 to 2000 mm. During the summer rainy season, the intertropical convergence zone exerts a decisive influence on the climate. There are often thunderstorms here, sometimes continuous cloud cover with prolonged rains persists for a long time. Winter is dry, as subtropical anticyclones dominate this season. In some areas, rain does not fall for two to three winter months. In South Asia, the wet season coincides with the summer monsoon, which brings moisture from the Indian Ocean, and Asian continental dry air masses spread here in winter.

humid tropical climate,

or the climate of tropical rainforests, common 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. In the humid tropics, the average temperature of any month is not less than + 17 ° C, usually the average monthly temperature is approx. + 26 ° C. As in the variable humid tropics, due to the high midday 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 thick vegetation prevent night 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 2500 mm, the distribution over the seasons is usually fairly even. 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.

Highland climates.

In highland areas, a significant variety of climatic conditions is due to the latitudinal-geographical position, orographic barriers, and different exposure of the slopes in relation to the Sun and moisture-carrying air currents. Even at the equator in the mountains there are snowfields-migrations. The lower boundary of the eternal snows descends towards the poles, reaching sea level in the polar regions. Like it, other boundaries of high-altitude thermal belts decrease as they approach high latitudes. Windward slopes of mountain ranges receive more precipitation. On mountain slopes open to the intrusions of cold air, a drop in temperature is possible. In general, the climate of the highlands is characterized by lower temperatures, higher cloudiness, more precipitation, and a more complex wind regime than the climate of the plains at the corresponding latitudes. The nature of seasonal changes in temperature and precipitation in the highlands is usually the same as in the adjacent plains.

MESO AND MICROCLIMATES

Territories that are inferior in size to macroclimatic regions also have climatic features that deserve special study and classification. Mesoclimates (from the Greek meso - medium) are the climates of territories several square kilometers in size, for example, wide river valleys, intermountain depressions, basins of large lakes or cities. In terms of distribution area and nature of differences, mesoclimates are intermediate between macroclimates and microclimates. The latter characterize the climatic conditions in small areas of the earth's surface. Microclimatic observations are carried out, for example, on the streets of cities or on test sites established within a homogeneous plant community.

EXTREME CLIMATE INDICATORS

Climatic characteristics such as temperature and precipitation vary widely between extreme (minimum and maximum) values. Although they are rarely observed, extremes are just as important as averages in understanding the nature of the climate. The climate of the tropics is the warmest, with the climate of tropical rainforests being hot and humid, and the arid climate of low latitudes being hot and dry. The maximum air temperatures are noted in tropical deserts. The highest temperature in the world - +57.8 ° C - was recorded in El Aziziya (Libya) on September 13, 1922, and the lowest - -89.2 ° C at the Soviet Vostok station in Antarctica on July 21, 1983.

Rainfall extremes have been recorded in different parts of the world. For example, for 12 months from August 1860 to July 1861, 26,461 mm fell in the town of Cherrapunji (India). The average annual rainfall in this point, one of the rainiest on the planet, is approx. 12,000 mm. Less data are available on the amount of snowfall. At Paradise Ranger Station in Mount Rainier National Park (Washington, USA), 28,500 mm of snow was recorded during the winter of 1971-1972. At many meteorological stations in the tropics with long series of observations, precipitation has never been recorded at all. There are many such places in the Sahara and on the west coast of South America.

At extreme wind speeds, measuring instruments (anemometers, anemographs, etc.) often failed. The highest wind speeds in the surface air probably develop in tornadoes, where it is estimated that they can be much higher than 800 km/h. In hurricanes or typhoons, winds sometimes reach speeds of over 320 km/h. Hurricanes are very common in the Caribbean and Western Pacific.

IMPACT OF CLIMATE ON BIOTA

The temperature and light regimes and moisture supply necessary for the development of plants and limiting their geographical distribution depend on the climate. Most plants cannot grow at temperatures below +5°C, and many species die at sub-zero temperatures. As temperatures increase, the moisture requirements of plants increase. Light is essential for photosynthesis, as well as for flowering and seed development. Shading the soil with canopy trees in a dense forest inhibits the growth of lower plants. An important factor is also the wind, which significantly changes the regime of temperature and humidity.

The vegetation of each region is an indicator of its climate, since the distribution of plant communities is largely driven by climate. The vegetation of the tundra in a subpolar climate is formed only by such undersized forms as lichens, mosses, grasses and low shrubs. The short growing season and widespread permafrost make it difficult for trees to grow everywhere except in river valleys and south-facing slopes, where the soil thaws to a greater depth in summer. Coniferous forests of spruce, fir, pine and larch, also called taiga, grow in a subarctic climate.

Humid regions of temperate and low latitudes are especially favorable for forest growth. The densest forests are confined to areas of temperate maritime climate and humid tropics. Areas of humid continental and humid subtropical climate are also mostly forested. In the presence of a dry season, such as in areas of subtropical climate with dry summers or variable humid tropical climates, plants adapt accordingly, forming either a stunted or sparse tree layer. Thus, in the savannas, under conditions of a variable-humid tropical climate, grasslands with single trees growing at great distances from one another predominate.

In semi-arid climates of temperate and low latitudes, where everywhere (except for river valleys) it is too dry for tree growth, herbaceous steppe vegetation dominates. The grasses here are stunted, and an admixture of semi-shrubs and semi-shrubs is also possible, for example, wormwood in North America. In temperate latitudes, grass steppes in more humid conditions at the borders of their range are replaced by tall grass prairies. In arid conditions, plants grow far apart, often have thick bark or fleshy stems and leaves that can store moisture. The driest regions of tropical deserts are completely devoid of vegetation and are exposed rocky or sandy surfaces.

The climatic altitudinal zonality in the mountains determines the corresponding vertical differentiation of vegetation - from grassy communities of foothill plains to forests and alpine meadows.

Many animals are able to adapt to a wide range of climatic conditions. For example, mammals in cold climates or in winter have warmer fur. However, the availability of food and water is also important for them, which varies depending on the climate and season. Many species of animals are characterized by seasonal migrations from one climatic region to another. For example, in winter, when grasses and shrubs dry up in the variable humid tropical climate of Africa, mass migrations of herbivores and predators to more humid areas occur.

In the natural zones of the globe, soils, vegetation and climate are closely interrelated. Heat and moisture determine the nature and pace of chemical, physical and biological processes, as a result of which rocks on slopes of different steepness and exposure change and a huge variety of soils is created. Where the soil is bound by permafrost for most of the year, as in the tundra or high in the mountains, soil formation processes are slowed down. In arid conditions, soluble salts are usually found on the soil surface or in near-surface horizons. In humid climates, excess moisture seeps down, carrying soluble mineral compounds and clay particles to considerable depths. Some of the most fertile soils are products of recent accumulation - wind, fluvial or volcanic. Such young soils have not yet undergone strong leaching and therefore retained nutrient reserves.

The distribution of crops and soil cultivation practices are closely related to climatic conditions. Bananas and rubber trees require an abundance of warmth and moisture. Date palms grow well only in oases in arid low-latitude areas. For most crops in arid conditions of temperate and low latitudes, irrigation is necessary. The usual type of land use in areas of semi-arid climate, where grasslands are common, is grazing. Cotton and rice have a longer growing season than spring wheat or potatoes, and all of these crops suffer from frost. In the mountains, agricultural production is differentiated by altitudinal zones in the same way as natural vegetation. Deep valleys in the humid tropics of Latin America are located in the hot zone (tierra caliente) and tropical crops are grown there. At somewhat higher elevations in the temperate zone (tierra templada), coffee is the typical crop. Above is the cold zone (tierra fria), where cereals and potatoes are grown. In an even colder zone (tierra helada), located just below the snow line, alpine meadows are grazing, and crops are extremely limited.

The climate affects the health and living conditions of people as well as their economic activities. The human body loses heat through radiation, conduction, convection and evaporation of moisture from the surface of the body. If these losses are too great in cold weather or too small in hot weather, the person experiences discomfort and may become ill. Low relative humidity and high wind speed increase the cooling effect. Weather changes lead to stress, impair appetite, disrupt biorhythms and reduce the resistance of the human body to disease. Climate also influences the conditions in which disease-causing pathogens live, and therefore seasonal and regional disease outbreaks occur. Epidemics of pneumonia and influenza in temperate latitudes often occur in winter. Malaria is common in the tropics and subtropics, where there are conditions for the reproduction of malarial mosquitoes. Diet-related diseases are indirectly climate-related, as food produced in a region may be deficient in certain nutrients as a result of climate influences on plant growth and soil composition.

CLIMATE CHANGE

Rocks, plant fossils, landforms, and glacial deposits contain information about significant fluctuations in average temperatures and precipitation over geological time. Climate change can also be studied by analyzing tree rings, alluvial deposits, ocean and lake bottom sediments, and organic peatland deposits. Over the past few million years there has been a general cooling of the climate, and now, judging by the continuous reduction of the polar ice sheets, we seem to be at the end of the ice age.

Climate change over a historical period can sometimes be reconstructed from information about famines, floods, abandoned settlements, and migrations of peoples. Continuous series of air temperature measurements are available only for meteorological stations located mainly in the Northern Hemisphere. They cover only a little over one century. These data indicate that over the past 100 years, the average temperature on the globe has increased by almost 0.5 ° C. This change did not occur smoothly, but abruptly - sharp warmings were replaced by relatively stable stages.

Experts from various fields of knowledge have proposed numerous hypotheses to explain the causes of climate change. Some believe that climatic cycles are determined by periodic fluctuations in solar activity with an interval of approx. 11 years. Annual and seasonal temperatures could be influenced by changes in the shape of the Earth's orbit, which led to a change in the distance between the Sun and the Earth. The Earth is currently closest to the Sun in January, but approximately 10,500 years ago it was in this position in July. According to another hypothesis, depending on the angle of inclination of the earth's axis, the amount of solar radiation entering the Earth changed, which affected the general circulation of the atmosphere. It is also possible that the polar axis of the Earth occupied a different position. If the geographic poles were at the latitude of the modern equator, then, accordingly, the climatic zones also shifted.

The so-called geographic theories explain long-term climate fluctuations by movements of the earth's crust and changes in the position of continents and oceans. In the light of global plate tectonics, continents have moved over geological time. As a result, their position in relation to the oceans, as well as in latitude, changed. In the process of mountain building, mountain systems with a cooler and, possibly, more humid climate were formed.

Air pollution also contributes to climate change. Large masses of dust and gases released into the atmosphere during volcanic eruptions occasionally became an obstacle to solar radiation and led to cooling of the earth's surface. An increase in the concentration of certain gases in the atmosphere exacerbates the overall warming trend.

The greenhouse effect.

Like the glass roof of a greenhouse, many gases pass most of the thermal and light energy of the Sun to the Earth's surface, but prevent the rapid return of the heat radiated by it to the surrounding space. The main gases causing the "greenhouse" effect are water vapor and carbon dioxide, as well as methane, fluorocarbons and nitrogen oxides. Without the greenhouse effect, the temperature of the earth's surface would drop so much that the entire planet would be covered with ice. However, an excessive increase in the greenhouse effect can also be catastrophic.

Since the beginning of the industrial revolution, the amount of greenhouse gases (mainly carbon dioxide) in the atmosphere has increased due to human activities and especially the burning of fossil fuels. Many scientists now believe that the rise in global mean temperature since 1850 was mainly due to increases in atmospheric carbon dioxide and other anthropogenic greenhouse gases. If current trends in fossil fuel use continue into the 21st century, global average temperatures could rise by 2.5–8°C by 2075. If fossil fuels are used faster than they are currently, this temperature rise could occur as early as 2030.

The projected increase in temperature could lead to the melting of the polar ice caps and most mountain glaciers, causing sea levels to rise by 30 to 120 cm. All of this could also affect changes in the Earth's weather patterns, with possible consequences such as extended droughts in the world's leading agricultural regions .

However, global warming as a consequence of the greenhouse effect can be slowed down if carbon dioxide emissions from burning fossil fuels are reduced. Such a reduction would require restrictions on its use throughout the world, more efficient energy consumption and an increase in the use of alternative energy sources (for example, water, solar, wind, hydrogen, etc.).

Literature:

Pogosyan Kh.P. General circulation of the atmosphere. L., 1952
Blutgen I. Geography of climates, vol. 1–2. M., 1972–1973
Vitvitsky G.N. Zonality of the Earth's climate. M., 1980
Yasamanov N.A. Earth's ancient climates. L., 1985
Climate fluctuations over the last millennium. L., 1988
Khromov S.P., Petrosyants M.A. Meteorology and climatology. M., 1994

Ice sheet climate dominates in Greenland and Antarctica, where 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.

subpolar climate manifests itself in the tundra regions on the northern outskirts of North America and Eurasia, as well as on the Antarctic Peninsula and adjacent islands. In eastern Canada and Siberia, the southern boundary of this climatic zone runs well south of the Arctic Circle due to the strongly pronounced influence of vast land masses. This leads to long and extremely cold winters. Summers are short and cool with average monthly temperatures rarely exceeding +10°C. To some extent, long days compensate for the short duration of summer, however, in most of the territory, the heat received is not enough to completely thaw the soil. Permanently frozen ground, called permafrost, inhibits plant growth and the infiltration of melt water into the ground. Therefore, in summer, flat areas turn out to be swampy. On the coast, winter temperatures are somewhat higher, and summer temperatures are somewhat lower than in the interior of the mainland. In summer, when humid air is over cold water or sea ice, fog often occurs on Arctic coasts.

The annual amount of precipitation usually does not exceed 380 mm. Most of them fall in the form of rain or snow in summer, during the passage of cyclones. On the coast, the bulk of precipitation can be brought by winter cyclones. But the low temperatures and clear weather of the cold season, characteristic of most areas with a subpolar climate, are unfavorable for significant snow accumulation.

subarctic climate It is also known under the name "taiga climate" (according to the predominant type of vegetation - coniferous forests). This climatic zone covers the temperate latitudes of the Northern Hemisphere - the northern regions of North America and Eurasia, located immediately south of the subpolar climatic zone. There are sharp seasonal climatic differences due to the position of this climatic zone at fairly high latitudes in the interior of the continents. Winters are long and extremely cold, and the further north you go, the shorter the days. Summers are short and cool with long days. In winter, the period with negative temperatures is very long, and in summer the temperature can sometimes exceed +32°C. In Yakutsk, the average temperature in January is -43°C, in July - +19°C, i.e. the annual temperature range reaches 62°C. A milder climate is typical for coastal areas, such as southern Alaska or northern Scandinavia.

Humid continental climate with short summers characteristic of a vast band of temperate latitudes of the Northern Hemisphere. In North America, it extends from the prairies in south-central Canada to the coast of the Atlantic Ocean, and in Eurasia it covers most of Eastern Europe and parts of Central Siberia. The same type of climate is observed in the Japanese island of Hokkaido and in the south of the Far East. The main climatic features of these regions are determined by the prevailing westerly transport and the frequent passage of atmospheric fronts. In severe winters, average air temperatures can drop to -18°C. Summers are short and cool, with a frost-free period of less than 150 days. The annual temperature range is not as large as in the subarctic climate. In Moscow, the average January temperatures are -9°C, July - +18°C. In this climatic zone, spring frosts pose a constant threat to agriculture. In the coastal provinces of Canada, in New England and on about. Hokkaido's winters are warmer than inland areas, as easterly winds occasionally bring in warmer ocean air.

Humid continental climate with long summers. Air temperatures and the duration of the summer season increase to the south in areas of humid continental climate. This type of climate is manifested in the temperate latitudinal zone of North America from the eastern part of the Great Plains to the Atlantic coast, and in southeastern Europe - in the lower reaches of the Danube. Similar climatic conditions are also expressed in northeastern China and central Japan. Here, too, western transport predominates. The average temperature of the warmest month is +22°С (but temperatures can exceed +38°С), summer nights are warm. Winters are not as cold as in areas of humid continental climate with short summers, but temperatures sometimes drop below 0°C. The annual temperature range is usually 28°C, as, for example, in Peoria (Illinois, USA), where the average temperature in January is -4°C, and in July - +24°C. On the coast, the annual temperature amplitudes decrease.

Maritime climate of temperate latitudes inherent in the western coasts of the continents, primarily in northwestern Europe, the central part of the Pacific coast of North America, southern Chile, southeastern Australia and New Zealand. The prevailing westerly winds blowing from the oceans have a softening effect on the course of air temperature. Winters are mild with average temperatures of the coldest month above 0°C, but when the arctic air currents reach the coasts, there are also frosts. Summers are generally quite warm; during intrusions of continental air during the daytime, the temperature can rise to +38°C for a short time. This type of climate with a small annual temperature range is the most moderate among the climates of temperate latitudes. For example, in Paris, the average temperature in January is +3°С, in July - +18°С.

Humid subtropical climate characteristic of the eastern coasts of the continents north and south of the tropics. The main areas of distribution 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°C, and the maximum temperature is +38°C. Winters are mild, with average monthly temperatures above 0°C, but occasional frosts have a detrimental effect on vegetable and citrus plantations.

Subtropical climate with dry summers 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 coasts of the Mediterranean Sea, which was the reason to call this climate also Mediterranean. The same 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.

Semi-arid climate of temperate latitudes(synonym - steppe climate) is characteristic mainly for inland regions, remote from the oceans - sources of moisture - and usually located in the rain shadow of high mountains. The main regions with a semi-arid climate are the intermountain basins and the Great Plains of North America and the steppes of central Eurasia. Hot summers and cold winters are due to the inland position in temperate latitudes. At least one winter month has an average temperature below 0°C, and the average temperature of the warmest summer month exceeds +21°C. The temperature regime and the duration of the frost-free period vary significantly depending on the latitude.

Arid climate of temperate latitudes is inherent mainly in the Central Asian deserts, and in the western United States - only in small areas in intermountain basins. Temperatures are the same as in regions with a semi-arid climate, but the precipitation here is not enough for the existence of a closed natural vegetation cover and the average annual amounts usually do not exceed 250 mm. As in semi-arid climatic conditions, the amount of precipitation that determines aridity depends on the thermal regime.

Semi-arid climate of low latitudes mostly typical of the margins of tropical deserts (eg the Sahara and the deserts of central Australia), where downdrafts in subtropical high pressure zones preclude precipitation. The climate under consideration differs from the semi-arid climate of temperate latitudes by very hot summers and warm winters. Average monthly temperatures are above 0°C, although frosts occasionally occur in winter, especially in areas furthest from the equator and located at high altitudes. The amount of precipitation required for the existence of dense natural herbaceous vegetation is higher here than in temperate latitudes. In the equatorial zone, it rains mainly in summer, while on the outer (northern and southern) margins of the deserts, the maximum precipitation occurs in winter. Precipitation mostly falls in the form of thunderstorms, and in winter the rains are brought by cyclones.

Arid climate of low latitudes. This is a hot dry climate of tropical deserts, stretching along the Northern and Southern tropics and being influenced by subtropical anticyclones for most of the year. Salvation from the sweltering summer heat can only be found on the coasts washed by cold ocean currents, or in the mountains. On the plains, the average summer temperatures noticeably exceed +32°C, while winter temperatures are usually above +10°C.

Variable humid tropical climate. Areas with such a climate are located in tropical sublatitudinal zones, a few degrees north and south of the equator. This climate is also called tropical monsoon, as it prevails in those parts of South Asia that are influenced by monsoons. Other areas with such a climate are the tropics of Central and South America, Africa and Northern Australia. Average summer temperatures are usually approx. + 27 ° С, and winter - approx. +21°С. The hottest month usually precedes the summer rainy season.

humid tropical climate, or the climate of tropical rainforests, common 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. In the humid tropics, the average temperature of any month is not less than + 17 ° C, usually the average monthly temperature is approx. +26°С. As in the variable humid tropics, due to the high midday 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.

Highland climates. In highland areas, a significant variety of climatic conditions is due to the latitudinal-geographical position, orographic barriers, and different exposure of the slopes in relation to the Sun and moisture-carrying air currents. Even at the equator in the mountains there are snowfields-migrations. The lower boundary of the eternal snows descends towards the poles, reaching sea level in the polar regions. Like it, other boundaries of high-altitude thermal belts decrease as they approach high latitudes. Windward slopes of mountain ranges receive more precipitation. On mountain slopes open to the intrusions of cold air, a drop in temperature is possible. In general, the climate of the highlands is characterized by lower temperatures, higher cloudiness, more precipitation, and a more complex wind regime than the climate of the plains at the corresponding latitudes. The nature of seasonal changes in temperature and precipitation in the highlands is usually the same as in the adjacent plains.

Climatic zones are continuous or discontinuous regions that are parallel to the latitudes of the planet. Between themselves, they differ in the circulation of air currents and the amount of solar energy. The terrain, proximity to or are also important climate-forming factors.

According to the classification of the Soviet climatologist B.P. Alisov, there are seven main types of Earth's climate: equatorial, two tropical, two temperate and two polar (one each in the hemispheres). In addition, Alisov identified six intermediate belts, three in each hemisphere: two subequatorial, two subtropical, as well as subarctic and subantarctic.

Arctic and Antarctic climate zone

Arctic and Antarctic climate zone on the world map

The polar region adjacent to the North Pole is called the Arctic. It includes the territory of the Arctic Ocean, margins and Eurasia. The belt is represented by icy and, which are characterized by long severe winters. The maximum summer temperature is +5°C. Arctic ice affects the climate of the Earth as a whole, preventing it from overheating.

The Antarctic belt is located in the very south of the planet. Nearby islands are also under his influence. The cold pole is located on the mainland, so winter temperatures average -60°C. Summer figures do not rise above -20°C. The territory is located in the Arctic desert zone. The mainland is almost completely covered with ice. Land areas are found only in the coastal zone.

Subarctic and Subantarctic climate zone

Subarctic and Subantarctic climate zone on the world map

The subarctic zone includes Northern Canada, the south of Greenland, Alaska, the north of Scandinavia, the northern regions of Siberia and the Far East. The average winter temperature is -30°C. With the advent of a short summer, the mark rises to +20°C. In the north of this climatic zone dominates, which is characterized by high humidity, swampiness and frequent winds. The south is located in the forest-tundra zone. The soil has time to warm up during the summer, so bushes and woodlands grow here.

Within the subantarctic belt are the islands of the Southern Ocean near Antarctica. The zone is subject to the seasonal influence of air masses. In winter, arctic air dominates here, and in summer masses come from the temperate zone. The average temperature in winter is -15°C. Storms, fogs and snowfalls often occur on the islands. In the cold season, the entire water area is occupied by ice, but with the onset of summer, they melt. Warm months average -2°C. The climate can hardly be called favorable. The flora is represented by algae, lichens, mosses and herbs.

temperate climate zone

Temperate climate zone on the world map

In the temperate zone lies a quarter of the entire surface of the planet: North America, and. Its main feature is a clear expression of the seasons of the year. The prevailing air masses give high humidity and low pressure. The average winter temperature is 0°C. In summer, the mark rises above fifteen degrees. Cyclones prevailing in the northern part of the zone provoke snow and rain. Most of the precipitation falls as summer rain.

Territories deep into the continents are prone to droughts. represented by an alternation of forests and arid regions. It grows in the north, the flora of which is adapted to low temperatures and high humidity. Gradually it is replaced by a zone of mixed broad-leaved forests. The strip of steppes in the south encircles all the continents. The zone of semi-deserts and deserts covers the western part of North America and Asia.

Temperate climates are subdivided into the following subtypes:

nautical;
temperate continental;
sharply continental;
monsoon.

Subtropical climate zone

Subtropical climate zone on the world map

In the subtropical zone there is a part of the Black Sea coast, the southwest and, the south of the North and. In winter, the territories are influenced by air moving from the temperate zone. The thermometer rarely drops below zero. In summer, the climate zone is affected by subtropical cyclones, which warm the earth well. Humid air prevails in the eastern part of the continents. There are long summers and mild winters without frost. The western coasts are characterized by dry summers and warm winters.

Temperatures are much higher in the interior regions of the climate zone. The weather is almost always clear. Most of the precipitation falls during the cold period, when the air masses shift to the side. On the coasts, hard-leaved forests grow with an undergrowth of evergreen shrubs. In the northern hemisphere, they are replaced by a zone of subtropical steppes, smoothly flowing into the desert. In the southern hemisphere, the steppes turn into broad-leaved and deciduous forests. Mountain areas are represented by forest-meadow zones.

In the subtropical climate zone, the following climate subtypes are distinguished:

subtropical oceanic climate and Mediterranean climate;
subtropical inland climate;
subtropical monsoon climate;
climate of high subtropical highlands.

Tropical climate zone

Tropical climate zone on the world map

The tropical climate zone covers separate territories in everything except Antarctica. An area of high pressure dominates the oceans all year round. Because of this, there is little rainfall in the climate zone. Summer temperatures in both hemispheres exceed +35°C. Average winter temperatures are +10°C. The average daily temperature fluctuation is felt in the interior of the continents.

Most of the time the weather is clear and dry. Most of the precipitation occurs during the winter months. Significant temperature fluctuations provoke dust storms. On the coasts, the climate is much milder: winters are warm, and summers are mild and humid. Strong winds are practically absent, precipitation falls in the calendar summer. The dominant natural areas are tropical forests, deserts and semi-deserts.

The tropical climate zone includes the following climate subtypes:

trade wind climate;
tropical dry climate;
tropical monsoon climate;
monsoon climate on tropical plateaus.

Subequatorial climate zone

Subequatorial climatic zone on the world map

The subequatorial climatic zone affects both hemispheres of the Earth. In summer, the zone is influenced by equatorial wet winds. In winter, the trade winds dominate. The average annual temperature is +28°C. Daily temperature fluctuations are insignificant. Most of the precipitation falls during the warm season under the influence of the summer monsoons. The closer to the equator, the more abundant it rains. In summer, most rivers overflow their banks, and in winter they dry up completely.

The flora is represented by monsoon mixed forests and light forests. The foliage on the trees turns yellow and falls during the drought period. With the arrival of rains, it is restored. In the open spaces of the savannas, cereals and herbs grow. The plant world adapted to periods of rain and drought. Some remote forest areas have not yet been studied by man.

Equatorial climate zone

Equatorial climate zone on the world map

The belt is located on both sides of the equator. The constant flow of solar radiation creates a hot climate. Weather conditions are affected by air masses coming from the equator. The difference between winter and summer temperatures is only 3°C. Unlike other climatic zones, the equatorial climate remains virtually unchanged throughout the year. Temperatures do not fall below +27°C. Due to heavy rainfall, high humidity, fogs and clouds are formed. Strong winds are practically absent, which favorably affects the flora.