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GH Effect body

portrait of Joseph Fourier
Figure A: Joseph Fourier

The "greenhouse effect" is not the same as global warming. "Global warming" refers to the increase in global average temperature due to excessive amounts of greenhouse gases. The greenhouse effect describes a critical function of our atmosphere: to keep the earth warm enough to sustain life.

The greenhouse effect is somewhat similar to the process that goes on in a real greenhouse. The original concept of the greenhouse effect dates back to 1824 with Joseph Fourier. The glass of a greenhouse allows the sun’s radiation in, which warms the ground inside, which in turn warms the air above the ground by longwave (heat) radiation. The glass then acts like a barrier to keep the warm air inside from mixing with the cooler air outside the greenhouse.

The greenhouse gases in the atmosphere allow the sun’s short wavelength radiation in, and because of the chemical properties of the gases, they do not interact with sunlight.  But they do absorb the longwave radiation from the earth and emit it back into the atmosphere, different from a greenhouse which does not allow the longwave radiation to escape through the glass. The increase in trapped energy leads to higher temperatures at the earth's surface. This has caused some people to rename the process ‘the atmospheric greenhouse effect’ or just ‘the greenhouse effect’.

Diagram of the Greenhouse Effect

Figure B
Image from EPA

The most abundant greenhouse gases responsible for the greenhouse effect in the atmosphere are water vapor, carbon dioxide, methane, nitrous oxide, and ozone. These greenhouse gases keep the surface of the Earth approximately 60F warmer than we would expect without these gases present.

The greenhouse effect works like this: First, the sun’s energy enters the top of the atmosphere as shortwave radiation and makes its way down to the ground without reacting with the greenhouse gases. Then the ground, clouds, and other earthly surfaces absorb this energy and release it back towards space as longwave radiation. As the longwave radiation goes up into the atmosphere, it is absorbed by the greenhouse gases. The greenhouse gases then emit their radiation (also longwave), which will often keep being absorbed and emitted by various surfaces, even other greenhouse gases, until it eventually leaves the atmosphere. Since some of the re-emitted radiation goes back towards the surface of the earth, it warms up more than it would if no greenhouse gases were present.

If the Earth's greenhouse gases increased in concentration and nothing else in the atmosphere changed, then the surface temperature would be expected to rise. The amount of radiation directed back down to Earth would increase and that would heat up the surface as the world's energy balance adjusted to the new conditions. However, the Earth has a very complicated climate system and if this increase in energy occurred, other things like increased evaporation and cloud formation as well as melting of polar ice would be likely to occur and interact in unexpected ways that would further change regional as well as global temperature and climate.

Below is a video from the National Academies of Science explaining how the greenhouse effect keeps our planet warmer with the greenhouse gases than we would be otherwise.

Last modified date: Monday, August 5, 2013 - 9:41am