Atmosphere Composition and Structure
- The Earth is surrounded by a mixture of gasses known as the atmosphere, playing a crucial role in sustaining life. Composing approximately 78% nitrogen, 21% oxygen, 0.9% argon, and 1% other gasses, the atmosphere exhibits distinct layers with varying properties.
Introduction to the Atmosphere:
- The Earth's atmosphere, tethered to the surface by gravitational force, is a dense gaseous envelope. It comprises layers with distinct characteristics, including composition, temperature, and pressure.
- The atmosphere exhibits varying densities and temperatures across its layers. Density is highest near the Earth's surface and decreases with altitude.
- Functioning as a colossal greenhouse, the atmosphere permits shortwave insolation to penetrate while becoming opaque to outgoing longwave terrestrial radiation. This greenhouse effect helps maintain an average surface temperature of 15°C.
Atmosphere Composition:
- Gasses in the atmosphere display dynamic ratios in the upper layers. For instance, carbon dioxide and water vapor are present only up to approximately 90 km above the Earth's surface.
- Beyond 120 km, oxygen content nearly diminishes.
- Water vapor, dust particles and other particulates are crucial for maintaining global climatic conditions. 90% of dust particles and water pour are only present up to a height of 10 kr. whereas 99% of various gasses are found up to a height of 32 km.
Gasses in the Atmosphere
- Air is a mixture of different gases in varying proportions. The two important gases in the atmosphere are Nitrogen and Oxygen.
- Nitrogen is composed of 78% of the total gases in the atmosphere while oxygen comprises 21%.
- The remaining 1% includes argon, carbon dioxide, ozone, water vapour and many other gases.
Nitrogen
- Nitrogen (N₂) constitutes the majority of the air and is vital for plant survival. However, plants cannot directly assimilate atmospheric nitrogen.
- Bacteria residing in soil and plant roots convert atmospheric nitrogen into a usable form for plants.
- Nitrogen plays a significant role in extinguishing fires by depleting the oxygen supply.
- Bacteria, such as Pseudomonas, facilitate the fixation of atmospheric nitrogen, supporting the growth of algae and leguminous plants.
- The nitrogen cycle, a biogeochemical process, transforms inert atmospheric nitrogen into a more accessible form.
- The nitrogen cycle is crucial for plants, as nitrogen is essential for chlorophyll production.
Oxygen
- Oxygen (O) is the second most abundant gas in the atmosphere.
- Humans and animals inhale oxygen during respiration, while green plants release oxygen through photosynthesis. This maintains a constant oxygen content in the air.
- Oxygen is a prerequisite for combustion, requiring fuel, an oxygen source, and a heat source.
- The oxygen cycle involves the circular flow of oxygen through the lithosphere, biosphere, and atmosphere. Humans and other living organisms utilize oxygen for metabolism and digestion.
Carbon Dioxide
- Green plants utilize carbon dioxide (CO₂) in photosynthesis to produce their own food and release oxygen. Humans and animals release carbon dioxide during respiration.
- Carbon dioxide is transparent to incoming solar radiation but opaque to outgoing terrestrial radiation.
- Responsible for the greenhouse effect, carbon dioxide constitutes approximately 0.036% of the atmosphere.
- Global agreements like the Kyoto Protocol (1997) and the Paris Climate Conference (2015) aim to regulate atmospheric carbon dioxide levels.
Ozone
- Ozone (O₃) is present between 10 and 50 km above the Earth's surface.
- Acting as a filter, ozone absorbs ultraviolet rays from the Sun, preventing them from reaching the Earth's surface.
- Harmful substances like nitrous oxide from jet planes, chlorofluorocarbons (CFCs), and hydrochlorofluorocarbons (HFCs) released by appliances such as air conditioners pose a threat to the ozone layer.
- Molecule called ozone has three oxygen atoms in it. It is blue in color and smells strongly. Two French scientists, Charles Fabry and Henri Buisson, made the discovery of the ozone layer in 1913.
- Ozone occurs naturally in small (trace) amounts in the upper atmosphere (the stratosphere). The upper stratosphere has an abundant ozone and has been found between 30 and 50 km in height.
Ozone Hole and Related Protocols
- Joe Farman, Brian Gardiner, and Jonathan Shanklin identified the hole in stratospheric ozone above Antarctica in 1985. An estimate shows that if a group of 500 supersonic jet planes takes off every day, they will deplete the ozone layer by 12%.
- The Montreal Protocol is an international agreement established in 1987 to safeguard the stratospheric ozone layer by gradually banning the manufacturing and use of chemicals that deplete the ozone layer (ODS).
- The United Nations General Assembly declared 16th September to be the International Day for the Preservation of the Ozone Layer in 1994. The Kigali Agreement is an amendment to the Montreal Protocol, signed in 2016.
Inert Gaseous in Atmosphere
- Of the inert gasses, the most important is Argon, forming about 0.93% of the atmosphere by volume.
- Other inert gasses include Neon, Helium, Krypton, and Xenon, having no significance in the Earth's weather processes.
Principal Gases of Dry Air
Constituent |
Percent by Volume |
Concentration in Parts Per Million (PPM) |
Nitrogen (N) |
78.084 |
780840.0 |
Oxygen (O₂) |
20.946 |
209460.0 |
Argon (Ar) |
0.934 |
9340.0 |
Carbon dioxide (CO₂) |
0.036 |
360.0 |
Neon (Ne) |
0.002 |
18.2 |
Helium (He) |
0.000524 |
5.24 |
Methane (CH₄) |
0.00015 |
1.5 |
Krypton (Kr) |
0.000114 |
1.14 |
Hydrogen (H₂) |
0.00005 |
0.5 |
Xenon (Xe) |
0.00009 |
0.9 |
Water Vapour
- Water vapour is a variable gas in the atmosphere, constituting about 4% of the air by volume in warm and wet tropics but less than 1% in dry and cold areas of deserts and polar regions.
- The amount of water vapour decreases with altitude. Water vapour absorbs parts of the insolation and is the immediate cause of condensation and precipitation.
- Earth's most prevalent greenhouse gas is water vapour, causing nearly half of the greenhouse effect on Earth.
- It functions as a blanket over the planet's atmosphere and stabilises the temperature. Water vapour is the cause of all meteorological events, including dew, fog, clouds, rainbows, and halos.
Aerosols
- Aerosols are minute particles suspended in the atmosphere, originating from various sources such as sea salts, fine soil, smoke-soot, ash, pollen, dust, storms, and disintegrated meteor particles.
- These particles facilitate water vapour condensation, leading to cloud formation and precipitation. Aerosols act as hygroscopic nuclei around which water vapour condenses to form clouds. When aerosols come in contact with gases like sulphur dioxide, smog is formed.
Structure of the atmosphere
- The structure of the atmosphere is intricate, comprising various layers with distinct densities and temperatures. While the atmosphere has been extensively studied up to a height of 16 to 29,000 km, the uppermost 800 km above the ocean's surface are particularly significant.
1. On the Basis of Uniformity:
- Homosphere: This zone exhibits uniform mixing and composition of gases and other constituents. Major gases like nitrogen, oxygen, argon, carbon dioxide, water vapor, and particulates are uniformly distributed.
- Extending up to 88 km from the Earth's surface, it includes the troposphere, stratosphere, and mesosphere.
- Heterosphere: Encompassing the region from 88 km to about 10,000 km, this layer includes both the ionosphere and exosphere.
- The air is no longer uniform, and its chemical composition varies, with regions dominated by a few atomic or molecular species. Due to the absence of convective heating, the material in the heterosphere is layered by mass.
2. On the Basis of Temperature:
- Troposphere: As the lowermost and warmest layer, the troposphere has an average altitude of 13 km, extending roughly up to 8 km near the poles and about 18 km at the equator.
- It contains 75% of the total gaseous mass, along with dust particles and water vapors.
- The troposphere experiences a gradual decrease in temperature with an increase at a constant rate of 1°C for every 165 m, known as the normal lapse rate.
- All meteorological phenomena occur in this layer.
Stratosphere:
- Extending above the tropopause to about 50 km, the stratosphere lacks atmospheric turbulence, making it suitable for jet airways.
- The air temperature increases steadily with altitude due to the absorption of UV rays by the ozone layer, but it never exceeds the melting point of water (0°C).
- The lower stratosphere may have cirrus clouds, and the stratosphere is separated from the mesosphere by the stratopause, exhibiting stable thermal conditions.
- The lower portion of the stratosphere with the maximum concentration of ozone is referred to as the ozonosphere.
- In the lower levels of the stratosphere, the temperature remains the same. There is an tetrease in temperature due to the absorption of ultraviolet rays by the ozone layer.
Mesosphere
- Mesosphere is the frigid atmospheric layer with coldest atmospheric conditions extending uptoh 80 km from stratopause, Temperature dee upto here with altitude and reaches upto -100°C.
- Meteors burn up in the mesosphere as shooting stars. It is separated from the thermosphere by mesopause. The upper layer of the mesosphere is marked by mesopause.
Thermosphere:
- Extending from mesopause to about 640 km in altitude, the thermosphere's lower layer is termed the ionosphere due to the presence of free radicals or ionic particles.
- Despite a rapid increase in temperature with altitude, the molecules are so widely dispersed that the atmospheric heat isn't perceptible.
Ionosphere:
- The ionosphere spans from 80 km to 640 km above the mesopause. Radio Waves transmitted from Earth are reflected back by this layer, and temperature increases with altitude.
- Abundant ionic particles in the ionosphere serve as protection against celestial bodies like meteors. It consists of various thermal layers, such as the D-layer, E-layer, etc., separated by gradients known as pauses.
Exosphere:
- Representing the uppermost layer beyond 640 km, the exosphere harbors the most rarefied gases and an abundance of electrically charged particles.
- Hydrogen and helium gases are present in the exosphere, with N₂, O₂, He, and H₂ in different layers.
- Molecules in the exosphere possess enough kinetic energy to escape gravity and venture into space, leading to the disappearance of helium.
Prelims Facts
- What is the thin layer of gases around the Earth is called?
- Atmosphere BPSC pre 2000
- Among the noble gases like helium, argon, radon and neon which gas is not present in air?
- - Radon /UPPSC (Pre) 2005)
- The reason for the diffusion of light in the atmosphere is
- - Dust particles (UPPSC (Pre) 2021)
- The thickness of the atmosphere is maximum over the
- Equator /LAS (Pre) 2004)
- The height of the ozone layer above the surface of the Earth is
- - 15-20 km /BPSC (Pre) 1996)
- In which atmospheric layer are communication satellites located?
- - Erosphere (UKPSC (Pre) 2005]
- which atmospheric layer is moosense that occupies 85% of the atmosphere?
- - Troposphere IMPSC (Pre) 2020%
- Lightening and thundering are the characteristics of
- - Troposphere APSC (Pre) 2010
- utatoes many ne of gases, but near the tam surface it contains mainly
- inNitrogen and Oxygen IRAS/RTS (Pre) 1997)
- Most weather activity o- Troposwhich atmospheric layer?
- - Troposphere [RAS/RTS (Pre) 1999)
- How much has the global average temperature risen in the last century?
- - 1.8° F (RAS/RTS (Pre)2021
Self Check
1. The atmosphere is a mixture of several gases. Near the Earth's surface it contains mainly
(a) nitrogen and oxygen
(d) ethane and oxygen
(c) oxygen and carbon dioxide
(b) nitrogen and carbon dioxide
2. The correct sequence of different layers of the atmosphere from the surface of the Earth upwards is UPPSC (Pre) 2005, 2021
(a) Troposphere, Stratosphere, lonosphere, Mesosphere
(b) Stratosphere, Troposphere, Ionosphere, Mesosphere
(c) Troposphere, Stratosphere. Mesosphere, lonosphere
(d) Stratosphere, Troposphere, Mesosphere, lonosphere
3. The stratosphere is said to be ideal for flying jet aircraft. This is because JPSC (Pre) 2010, 2011
(a) this layer is rich in ozone which reduces fuel consumption.
(b) the temperature is constant and ideal for aircraft engine efficiency
(c) this layer is out of the firing range of anti-aircraft guns.
(d) the absence of clouds and other weather phenomena.
4. Which of the following statements is not true?UPPSC (Pre) 2002
(a) Presence of water vapour is highly variable in the lower atmosphere.
(b) The zone of maximum temperature is located along the Equator.
(c) Frigid zones are located in both the hemispheres between the polar circles and the poles.
(d) Jet streams are high altitude winds affecting the surface weather conditions.
5. Arrange the following gases of the atmosphere in increasing order by volume.
- Nitrogen
- Oxygen
- Carbon dioxide
- Argon
Codes
(a) 1, 2, 3 and 4
(b) 1, 2, 4 and 3
(c) 3, 4, 2 and 1
(d) 4, 3, 2 and 1
6. How many kilometers above from the surface of the Earth ozone can be found?
(a) 30 to 50 km
(b) 1 to 5 km
(c) 50 to 1 km
(d) 3 to 7 km
7. Which is the warmest layer of the atmosphere?
(a) Thermosphere
(c) Stratosphere
(b) Troposphere
(d) Mesosphere
8. Which of the following layers of the Earth's atmosphere provide ideal flying conditions for Jet aircraft?
(a) Mesosphere
(b) Thermosphere
(c) Stratosphere
(d) Troposphere
Know Right Answer
1 (a)
2 (c)
3 (d)
4 (b)
5 (c)
6 (a)
7 (a)
8 (c)