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INSOLATION AND TEMPRATURE

Insolation is the incoming solar radiation. It is received in the form of short waves. The earth’s surface receives this radiant energy at the rate of two calories per square centimetre per minute.

The solar output received at the top of the atmosphere varies slightly in a year due to the variations in the distance between the earth and the sun. During its revolution around the sun, the earth is farthest from the sun (152 million km on 4th July). This position of the earth is called aphelion. On 3rd January, the earth is the nearest to the sun (147 million km). This position is called perihelion. Therefore, the annual insolation received by the earth on 3rd January is slightly more than the amount received on 4th July. However, the effect of this variation in the solar output is masked by other factors like the distribution of land and sea and the atmospheric circulation. Hence, this variation in the solar output does not have great effect on daily weather changes on the surface of the earth.

Of the total radiant solar energy that strikes the outer surface of the atmosphere, only half is able to reach the earth’s surface directly or indirectly and is absorbed. The rest is lost through the atmosphere.

Insolation And Temperature - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy

Variability of insoltion

The amount of insolation reaching the earth’s surface and its effectiveness per unit area depend upon (i) the angle of incidence (ii) the duration of sunshine (iii) transparency of the atmosphere.

The fact that the earth’s axis makes an angle of 66½ with the plane of its orbit round the sun has a greater influence on the amount of insolation received at different latitudes. The second factor that determines the amount of insolation received is the angle of inclination of the rays. This depends on the latitude of a place. The higher the latitude the less is the angle they make with the surface of the earth resulting in slant sun rays. The area covered by vertical rays is always less than the slant rays. If more area is covered, the energy gets distributed and the net energy received per unit area decreases. Moreover, the slant rays are required to pass through greater depth of the atmosphere resulting in more absorption, scattering and diffusion.
The atmosphere is largely transparent to short wave solar radiation. The incoming solar radiation passes through the atmosphere before striking the earth’s surface. Within the troposphere water vapour, ozone and other gases absorb much of the near infrared radiation.

Spatial Distribution of Insolation at the Earth’s Surface

The insolation received at the surface varies from about 320 Watt/m2 in the tropics to about 70 Watt/m2 in the poles. Maximum insolation is received over the subtropical deserts, where the 

cloudiness is the least. Equator receives comparatively less insolation than the tropics. Generally, at the same latitude the insolation is more over the continent than over the oceans. In winter, the middle and higher latitudes receive less radiation than in summer.

HEATING AND COOLING OF THE ATMOSPHERE

Air may be heated in three ways: radiation, conduction and convection.

RADIATION:- It is directs heating of a body or an object by the transmission of heat waves. The amount and nature of radiation are governed by certain basic laws such as:

  1. All objects emit radiant energy.
  2. Hotter objects radiate more energy per unit area than the colder objects.
  3. Temperature of an object also determines the wave length of radiation.
  4. Objects that are good absorbers of radiation are also good emitters.
  5. The earth’s surface is good absorber of insolation. It is also a good radiator as it radiates with 100% efficiency. On the other hand, gases and water vapour are selective absorbers and radiators.

As a result, the atmosphere is very transparent to insolation because it does not absorb certain wavelength of radiation such as visible light. But it is nearly opaque to long wave terrestrial radiation since gases such as water vapour and carbon dioxide are good absorbers of long wave radiation. The atmosphere is, therefore, heated more by terrestrial radiation than the incoming solar radiation.

CONDUCTION

Transfer of heat through matter by molecular activity is called conduction. When two bodies of unequal temperature are in contact with one another, there is a flow of energy from the warmer to the cooler body. Metals are good conductors. Air, on the hand, is a poor conductor of heat. Consequently, conduction is important only in the lower layers of the atmosphere where the air is in the direct contact with the earth’s surface.

CONVECTION

Transfer of heat by the movement of a mass or substance from one place to another is called convection. Convective motions are possible only in liquids and gases when the air in the lower layers of the atmosphere gets heated either by   terrestrial radiation of conduction, it expands. Owing to decrease in density, it moves upward. Continuous ascent of the heated air mass pushes aside the air at the higher levels. As a result, the pushed air mass moves horizontally towards cooler areas and gradually descends down due to increasing density. Due to continuous ascent of the heated air, a vaccum is created in the lower layers of the atmosphere. Cooler air mass moves horizontally near the earth’s surface to fill up this void. Reaching the heated region, it also warm up and rises up. Hence, cyclic movements associated with the convectional currents in the atmosphere transfer heat from the lower layers to the upper layers and heat up the atmosphere.

HEAT  BUDGET

Insolation And Temperature - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy

Insolation And Temperature - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy

The average temperature of the earth remains rather constant. It has been possible because of the balance between the amount of incoming solar radiation and the amount of terrestrial radiation returned to space. This balance of incoming and outgoing radiation has been termed as the earth’s heat budget.

Let us assume that total heat received at the top of the atmosphere is 100 units. Roughly 35 units are reflected back to space, even before reaching the earth’s surface, from top of the clouds, snow and ice covered areas of the earth. The reflected amount of radiation is called the albedo of the earth.
The remaining 65 units are absorbed; 14 units within the atmosphere and 51 units by Earth’s surface.

The earth radiates back 51 units the form of terrestrial radiation. Of these, 17 units are absorbed by the atmosphere.48 units absorbed by the atmosphere are also radiated back into space. Thus, the total radiation returning from the earth and the atmosphere 65 units which balance the total of 100 units received from the sun. This is termed as the heat budget of heat balance of the earth.

TEMPERATURE

Usage of terms heat and temperature are quite often confusing. Essentially heat is a from of energy which makes things hotter. In other words, it refers to the quantity of energy. Temperature measures the intensity of heat, i.e. the degree of hotness.

Factors controlling temperature:-

  1. Land and Water.
  2. Prevailing Winds.
  3. Ocean currents.
  4. Altutude.

Land and water

Differential heating of land and water surfaces cause variations in the temperature of the air above. Land mass is heated and cooled more rapidly and to a greater degree than water hence the temperature of the air resting over a land mass differs markedly from that of the air resting over an expance of water in the same latitude. Greater extremes of temperature are felt over land than over the oceans.

Prevailing Winds

A windward coastal location well experienced the full moderating influence of the oceans – cool summer and mild winters. On the other hand, an inland station will have a more continental temperature regime because the winds do not being oceanic influence to it.

Ocean Currents

Ocean currents influence temperature of adjacent land areas considerably. Warm currents raise the temperatures of the coastal areas, whereas cold currents lower them. Beguela currents (cold) off the western coast of southern Africa moderate the tropical heat.

Altitude

The atmosphere is heated mainly from below. The lowest layer of the air in contact with the earth’s surface is, therefore, the warmest. As we go higher, the temperature gradually decreases and the air becomes cooler. The normal lapse rate is roughly 1°C for every 165 metres of ascent.

Temperature Anomaly

The difference between the mean temperature of any place and the mean temperature of its parallel is called the temperature anomaly or thermal anomaly.

The largest anomalies occur in the Northern Hemisphere and the smallest in the Southern Hemisphere.

Inversion of Temperature

Occasionally the temperature in the lower layers of the air increases instead of decreasing with elevation. Thus, there is reversal in the vertical distribution of temperature, which is known as the inversion of temperature.

 

The document Insolation And Temperature - Physical Geography, UPSC, IAS. | Geography (Prelims) by Valor Academy is a part of the UPSC Course Geography (Prelims) by Valor Academy.
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FAQs on Insolation And Temperature - Physical Geography, UPSC, IAS. - Geography (Prelims) by Valor Academy

1. What is insolation and how does it affect temperature?
Ans. Insolation refers to the incoming solar radiation received by the Earth's surface. It plays a crucial role in determining temperature patterns on the planet. When insolation strikes the Earth's surface, it can be reflected, absorbed, or transmitted. The amount of insolation absorbed by the surface influences the temperature. Higher insolation leads to warmer temperatures, while lower insolation results in cooler temperatures.
2. How does latitude affect insolation and temperature?
Ans. Latitude plays a significant role in determining insolation and temperature patterns. The Earth's spherical shape causes the Sun's rays to strike different latitudes at varying angles. Near the equator, where the angle of incidence is more direct, insolation is concentrated over a smaller area, resulting in higher temperatures. As you move towards higher latitudes, such as the poles, the angle of incidence decreases, leading to spread-out insolation and colder temperatures.
3. How do cloud cover and atmospheric conditions influence insolation and temperature?
Ans. Cloud cover and atmospheric conditions have a direct impact on insolation and temperature. Clouds can reflect and scatter incoming solar radiation, reducing the amount of insolation reaching the Earth's surface. This can lead to lower temperatures. On the other hand, clear skies allow more insolation to reach the surface, resulting in higher temperatures. Atmospheric conditions, such as the presence of greenhouse gases, can trap heat and contribute to the greenhouse effect, further influencing temperature.
4. What is the role of topography in insolation and temperature variations?
Ans. Topography, such as mountains and valleys, can cause variations in insolation and temperature. As sunlight interacts with the Earth's surface, it heats up different landforms at varying rates. Higher elevations, such as mountains, receive more intense insolation due to their proximity to the Sun, resulting in warmer temperatures at those locations. In contrast, valleys and low-lying areas may experience cooler temperatures as they receive less direct insolation and are more prone to temperature inversions.
5. How does the Earth's tilt affect insolation and temperature changes throughout the year?
Ans. The Earth's tilt on its axis is responsible for seasonal variations in insolation and temperature. During summer in the hemisphere tilted towards the Sun, that hemisphere receives more direct and concentrated insolation, leading to warmer temperatures. In contrast, during winter in the hemisphere tilted away from the Sun, the angle of incidence decreases, and insolation is spread out, resulting in cooler temperatures. This tilt causes the annual cycle of seasons and temperature changes.
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