The Atmosphere: Composition (2024)

The Atmosphere

Our atmosphere is a dynamic mixture of gases that envelop the Earth. Two gases, nitrogen and oxygen, make up most of the atmosphere by volume. They are indeed important for maintaining life and driving a number of processes near the surface of the Earth. Many of the so called "minor gases" (known here as "variable gases") play an equally important role in the Earth system. These gases include those that have a significant impact on the heat budget and the availability of moisture across the Earth. The atmosphere is not a hom*ogeneous mass of gases, but has a layered structure as defined by vertical temperature changes.

Two broad regions can be identified using air composition as a means to subdivide the atmosphere. The heterosphere is the outer most sphere where gases are distributed in distinct layers by gravity according to their atomic weight. Extending from an altitude of 80 km (50 mi), the lightest elements (hydrogen and helium) are found at the outer margins of the atmosphere. The heavier elements (nitrogen and oxygen) are found at the base of the layer.

Figure 3.1 Heterosphere and hom*osphere (Not available yet)

The hom*osphere lies between the Earth's surface and the heterosphere. Gases are nearly uniformly mixed through this layer even though density decreases with height above the surface. The only exceptions is the "ozone layer" from 19 to 50 km (12 to 31 mi) and near surface variations in water vapor, carbon dioxide and air pollutants.

Constant Gases

Nitrogen, oxygen and argon are called the "constant gases" because their concentration has remained virtuallythe same for much of recent earth history. Nitrogen (78%)is a relatively inert gas produced primarily by volcanic activity. It is an important component of protein in meat, milk, eggs and the tissues of plants, especially grains and members of the pea family. It cannot be ingested directly by organisms but made available to plants, and then to animals, by compounds in the soil. Most atmospheric nitrogen enters the soil by nitrogen-fixing microorganisms.

Oxygen (21%) is important for plant and animal respiratory processes. It is also important to chemical reactions (oxidation) that breakdown rock materials (chemical weathering). Without oxygen, things cannot burn either. Free oxygen in the atmosphere is a product of plant photosynthesis. Plants take up carbon dioxide and in the process of photosynthesis release oxygen.

Argon (.93%) is a colorless, odorless relatively inert gas, the reason it use to electric light bulbs, fluorescent tubes. It is used to form inert atmosphere for arc welding, and growing semiconductor crystals.

Variable Gases

The so called "variable gases" are those present in small and variable amounts. These include carbon dioxide, methane, ozone, water vapor, and particulates among others. Even though they represent a tiny portion of the atmosphere as a whole, they exert a great control over our environment.

Carbon dioxide

Carbon dioxide(CO2) makes up only .036% of the atmosphere by volume. Carbon dioxide is essential to photosynthetic processes of plants. Huge quantities of carbon are stored in plant tissue, deposits of coal, peat, oil, and gas. Carbon dioxide is taken in by plants and during photosynthesis is combined with water and energy to form oxygen and carbohydrates. The stored carbohydrates are used to fuel plant respiration and growth. Carbon is also stored in limestone rocks that have formed by the compaction of carbonate-rich shells of ocean life. Because vegetation takes in so much carbon dioxide, we often refer to plants as a "sink" for it.

Carbon dioxide in the atmosphere varies throughout the year, decreasing slightly during the summer as plants leaf out, and then increases during the winter as plants go dormant and photosynthesis decreases. The zigzag pattern of carbon dioxide measurements taken at Mauna Loa, Hawaii in Figure 3.1 below illustrates this seasonality.

The Atmosphere: Composition (1)

Figure 3.2 Temporal Variation of Carbon Dioxide
Click image to enlarge
Source: NOAA ESRL

The seasonal changes in the geography of uptake and release of carbon dioxide during 2004 is shown in Figure 3.3 by NOAA's CarbonTracker. The black and white dots are locations where CO2 data is collected. A computer model based on this data and a knowledge of surface sources and sinks generates the patterns for the entire globe. Again, the large season to season variation is due to plant life. Blue colors over the northern hemisphere during July in the midlatitudes result from forests and crops soaking up large quantities of CO2. Intense red areas of CO2 release during July, August, and September in the southern hemisphere is largely due to biomass burning. Some burning is natural, such as the dry savanna grasses ignited by lightning strikes. Most is due to people burning fields in preparation for planting, or burning of forests for new agricultural land.

Figure 3.3 NOAA's Carbon Tracker
Courtesy NOAA Earth System Research Laboratory

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The Atmosphere: Composition (2024)

FAQs

The Atmosphere: Composition? ›

Earth's atmosphere is composed of about 78 percent nitrogen, 21 percent oxygen, 0.9 percent argon, and 0.1 percent other gases. Trace amounts of carbon dioxide, methane, water vapor, and neon are some of the other gases that make up the remaining 0.1 percent.

What is the composition of the atmosphere today? ›

GasSymbolContent
NitrogenN278.084%
OxygenO220.946%
ArgonAr0.934%
Carbon dioxideCO20.042%
12 more rows
Jul 2, 2024

What makes up 99% of our air? ›

Nitrogen and oxygen account for 99 percent of the gases in dry air, with argon, carbon dioxide, helium, neon, and other gases making up minute portions.

What is the standard composition of the atmosphere? ›

By mole fraction (i.e., by quantity of molecules), dry air contains 78.08% nitrogen, 20.95% oxygen, 0.93% argon, 0.03% carbon dioxide, and small amounts of other trace gases. Air also contains a variable amount of water vapor, on average around 1% at sea level, and 0.4% over the entire atmosphere.

Which layer is the hottest? ›

The inner core is the hottest layer. The temperature reduces as we move outward towards the crust.

What is the atmosphere made of? ›

Earth's atmosphere is composed of about 78 percent nitrogen, 21 percent oxygen, 0.9 percent argon, and 0.1 percent other gases. Trace amounts of carbon dioxide, methane, water vapor, and neon are some of the other gases that make up the remaining 0.1 percent.

Is our air 100% oxygen? ›

It is important to remember that these organisms produce pure oxygen (not air) during photosynthesis. Air is approximately 21% oxygen and thus it contains about five times less oxygen than the pure gaseous element produced during photosynthesis.

What is in air but not in oxygen? ›

Answer and Explanation:

Oxygen just contains oxygen. Air, however, contains a variety of elements and other substances, including oxygen, nitrogen, argon, carbon dioxide, helium, methane, neon, krypton, hydrogen, xenon, iodine, and more.

Which planet has the most oxygen? ›

Problem 3 – Which planet has the atmosphere with the greatest percentage of Oxygen? Answer: From the table we see that Mercury has the greatest percentage of oxygen in its atmosphere.

Do we breathe in nitrogen? ›

The gas that makes up most of the air we breathe is… NOT oxygen! Nitrogen makes up about 78% of the Earth's atmosphere. Breathing an atmosphere of pure oxygen would damage the delicate tissues and blood vessels in our lungs, so it's a good thing that most of our atmosphere is nitrogen.

How high until you reach space? ›

This boundary sits some 62 miles (100 kilometers) above Earth's surface, and it's generally accepted as the place where Earth ends and outer space begins. From a cosmic perspective, 100 km is a stone's throw; it's only one-sixth the driving distance between San Francisco and Los Angeles.

How much oxygen is in the air we breathe? ›

The amount of inhaled air contains 21% of oxygen and 0.04% of carbon dioxide, while the air we breathe out contains 16.4% of oxygen and 4.4% of carbon dioxide. This is because our cells use oxygen from the inhaled air to release energy and give out carbon dioxide as a byproduct.

What are the 7 layers of atmosphere on Wikipedia? ›

These are the layers of the atmosphere, starting from the ground:
  • Troposphere - Starts at the ground. ...
  • Stratosphere - Starts at 18 kilometres (11 miles). ...
  • Mesosphere - Starts at 50 kilometres (31 miles). ...
  • Thermosphere - Starts at 80 or 85 kilometres (50 or 53 miles). ...
  • Exosphere - Above the thermosphere.

What surrounds the world with 7 layers? ›

Earth's atmosphere is composed of a series of layers, each with its own specific traits. Moving upward from ground level, these layers are called the troposphere, stratosphere, mesosphere, thermosphere, and exosphere. The exosphere gradually fades away into the realm of interplanetary space.

Are there seven layers of the sky? ›

Earth's atmosphere has five major and several secondary layers. From lowest to highest, the major layers are the troposphere, stratosphere, mesosphere, thermosphere and exosphere.

What are the layers of the earth's atmosphere Class 7? ›

From the lower layer to the higher layers, they are: the troposphere, stratosphere, mesosphere, thermosphere, and exosphere.

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