The Atmosphere and the Weather
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Composition of the atmosphere
Composition of the Atmosphere near the Earth's
Surface
| Permanent Gases |
Variable Gases |
| Gas Name |
Chemical
Formula |
Percent
(by Volume)
Dry Air |
Gas
(and Particles) |
Symbol |
Percent
(by Volume) |
Parts per
Million (ppm)* |
| Nitrogen |
N2 |
78.08 |
Water Vapor |
H2O |
0 to 4 |
|
| Oxygen |
O2 |
20.95 |
Carbon Dioxide |
CO2 |
0.0393 |
393 |
| Argon |
Ar |
0.93 |
Methane |
CH4 |
0.00017 |
1.7 |
| Neon |
Ne |
0.0018 |
Nitrous Oxide |
N2O |
0.00003 |
0.3 |
| Helium |
He |
0.0005 |
Ozone |
O3 |
0.000004 |
0.04 |
| Hydrogen |
H2 |
0.00005 |
Particles (dust, soot, etc.) |
|
0.00001 |
0.01-0.15 |
| Xenon |
Xe |
0.000009 |
Chlorofluorocarbons (CFCs) |
|
0.00000002 |
0.0002 |
|
*For CO2, 393 parts per million means
that out of every million air molecules, 393 are
CO2 molecules. |
Major Components of the Atmosphere
The Atmosphere is mostly
composed of Nitrogen and Oxygen. These make up 99% of the volume of "dry
air". In this context "dry air" refers to all gases, except water vapor.
- Nitrogen:
- Removed from atmosphere by biological processes that
involve soil bacteria. Returned to the atmosphere through the
decaying of plant and animal matter.
- Oxygen:
- Removed from atmosphere by when organic matter decays,
combines with other substances, or is taken in during
breathing. Is added to the atmosphere through photosynthesis by
plants.
Some Important Trace Components of the Atmosphere
- Water Vapor:
- Varies greatly from place to place, and from time to
time. It averages only about 0.4% of the atmosphere, but varies
from as much as 4% in the humid tropics to near 0% in cold polar regions.
- Enters the atmosphere through evaporation of liquid water.
- Water vapor condenses into liquid and solid cloud particles that grow in
size and fall to earth as precipitation
- Redistributes heat energy on earth and is important to
the formation of storms. This is because large quantities of
energy are involved in phase changes:
- Evaporation (liquid to gas) energy is absorbed from environment
- Condensation (gas to liquid) energy is released to the environment
- Is a strong
greenhouse
gas that warms the earth's surface and its atmosphere. In fact
water vapor is the most important greenhouse gas on Earth
- Carbon Dioxide:
- Second most important greenhouse gas on Earth.
- Enters the atmosphere through the decay of vegetation,
volcanic eruptions,
respiration, burning of fossil fuels, and from
deforestation. It is removed from the atmosphere by
photosynthesis, and the oceans.
- Concentration has been increasing due to human activities, mainly buring fossil
fuels and deforestation. The amount of carbon dioxide has increased over 35%
since 1750. There is concern that this will strengthen the natural greenhouse
effect leading to global warming.
- Methane:
- Another important greenhouse gas.
- Since 1750, methane concentrations have increased by more than
150% mainly due to human activity raising concern about possible
global warming.
- The main sources are the breakdown of plant material in
rice paddies, domestic grazing animals (biological reactions
in their stomach), biological activities of termites.
- Nitrous Oxide:
- Another important greenhouse gas.
- Since 1750, nitrous oxide conntrations have increased by more than
20% mainly due to human activity raising concern about possible
global warming.
- Forms in the soil by bacterial processes and is destroy by
ultraviolet light from the sun.
- Ozone:
- Most of it is found in the
stratosphere where it forms the ozone layer
(~20 - 30 km above the ground surface). The ozone layer
protects plants, animals, and humans from the sun's harmful
ultraviolet radiation by absorbing the radiation.
- Very little is found naturally near the ground where it
is a toxic pollutant. Sometimes dangerously high concentrations
develop near large cities in a process called
photochemical
smog
- Aerosols:
Aerosols are tiny solid or liquid particles that are suspended in the air. Most
aerosols are microscopic and too small to see individually without a microscope.
Aerosols include things like dust, pollen, smoke, and even cloud droplets. When there
are high concentrations of aerosols in the air, they do affect the propagation of
light, and thus affect visibility. Examples are the visible thick smoke that comes
off fires and normal clouds.
- Important for climate naturally and through human activities that
release aerosols into the atmosphere
- Affect passage of solar radiation through the atmosphere
- Influence cloud formation
- Natural and manmade aerosols can affect human health
- "Particulate" air pollution