If Carbon Dioxide Makes Up Only A Minute Portion of the Atmosphere, How Can Global Warming Be Traced To It?

Air Date: 07/24/2006
Source:
Scientific American
Creator:
Pieter Tans
Air/Publish Date:
07/24/2006
Event Date:
07/24/2006
Resource Type:
Article
Copyright:
n/a
Copyright Date:
2006
Clip Length:
-

This 2006 Scientific American "Ask the Expert" article explains carbon dioxide's presence and role in the Earth's atmosphere, and how even small changes in CO2 portions can affect global and ocean warming. Source: Scientific American, July 24, 2006

If carbon dioxide makes up only a minute portion of the atmosphere, how can global warming be traced to it? And how can such a tiny amount of change produce such large effects?

July 24, 2006

Pieter Tans, a senior scientist at the National Oceanic and Atmospheric Administration (NOAA) Earth System Research Laboratory, provides this answer.

The earth's surface absorbs visible radiation from the sun, which causes heating. At the same time the surface and the atmosphere emit infrared radiation back to space, which produces cooling. Our eyes cannot see infrared radiation but we can feel how our skin absorbs it when we are standing next to a hot object without touching it. Over a long period the earth's surface temperature will remain approximately constant because the amount of heat absorbed as visible light is equal to the amount emitted as infrared light.

Nitrogen, oxygen and argon together comprise more than 99 percent of the atmosphere. None of these three gases absorb either visible or infrared light; both types penetrate the entire atmosphere. It is as though, when it comes to the absorption and emission of light, the atmosphere's three main components do not exist!

The next most abundant gases--water vapor and carbon dioxide--do absorb a portion of the infrared heat radiated by the earth's surface, thereby preventing it from reaching space. Instead of dissipating into space, the infrared radiation that is absorbed by atmospheric water vapor or carbon dioxide produces heating, which in turn makes the earth's surface warmer. This is known as the greenhouse effect and without it our planet's surface would likely be frozen, like Mars. The heat absorbed by water vapor and carbon dioxide is shared with all the nitrogen, oxygen and argon, because the latter molecules are always bumping into water vapor and carbon dioxide as they mix in the atmosphere. This effect makes the atmosphere act somewhat like a blanket that becomes thicker when amounts of water vapor, carbon dioxide and other "greenhouse gases", such as methane and nitrous oxide, increase. The top of the blanket remains cold and continues to emit about the same amount of infrared to space but below the blanket it gets warmer because it is more difficult for the heat to rise to the top.

The heating effect of extra carbon dioxide, methane, nitrous oxide and many other minor gases can be calculated with confidence based on the absorption properties that have been measured carefully in the laboratory. Currently, the total heating produced by the increases of all long-lived greenhouse gases (excluding water vapor) since preindustrial times is equal to about 1 percent of all solar radiation absorbed at the surface. The effect would be somewhat similar if the sun had started to shine 1 percent more brightly during the 20th century.

Water vapor is excluded from the above calculation because it is an intimate and highly variable part of the climate system itself in the form of clouds, rain, snow and other weather. The long-lived greenhouse gases, however, can be considered an external forcing clearly influenced by human action. Most climatologists expect that on average the atmosphere's water vapor content will increase in response to surface warming caused by the long-lived greenhouse gases, further accelerating the overall warming trend.

It will be difficult to slow or stop this global warming, thanks to the oceans, which are warming as well. Currently, the amount of infrared heat radiated back to space is slightly less than what we absorb from the sun due to the increase in greenhouse gases. This excess energy slowly warms the oceans. Although it takes them a very long time to heat up, once they have they will release more infrared radiation and the Earth will emit as much back to space as it receives from the sun. But the planet's surface will be warmer, because a larger fraction of that infrared will be blocked by the blanket of greenhouse gases. Thus, we can expect about another 0.5 degree Celsius of warming even if the amount of carbon dioxide in the atmosphere were to stop increasing today, which is unlikely as we continue to burn coal, oil and natural gas for our increasing energy needs.

Small changes in the Earth's heat balance can lead to large climatic changes. For example, the ice ages during the last several million years--and the warmer periods in between--appear to have been triggered by no more than a different seasonal and latitudinal distribution of the solar energy absorbed by the Earth, not by a change in output from the sun. The geologic record shows that the differences in ice cover, sea level and precipitation as well as in plant and animal populations were quite dramatic between the ice ages and the warm interglacials. Yet the global average temperature differences corresponding to these radically different climates were only about 5 degrees C in the tropics and 8 degrees C in polar regions.

At this point, the Earth is probably on the threshold of an entirely new epoch in which the global climate and the distribution of life will be strongly influenced by a single species: humans. Some are calling this new epoch the anthropocene and it is all thanks to our increasing the relatively small amount of carbon dioxide in the atmosphere by burning the vast stores of carbon trapped inside of the fossil fuels that power our modern lives.

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