Our atmosphere is but a thin layer of gas around a huge bulky planet. This gaseous outer ring and its greenhouse effect make life on Earth possibleâ€“and could destroy life as we know it. Only about half of all solar energy that reaches the Earth is infrared radiation, which causes warming. The other half only
Our atmosphere is but a thin layer of gas around a huge bulky planet. This gaseous outer ring and its greenhouse effect make life on Earth possibleâ€“and could destroy life as we know it.
Only about half of all solar energy that reaches the Earth is infrared radiation, which causes warming. The other half only translates into heat once it hits Earth and is reflected back into space as infrared radiation.
This transformation of solar radiation into infrared radiation is crucial, because infrared radiation can be absorbed by the atmosphere. Like a radiator in the middle of a room, our atmosphere radiates this heat in all directions.
How is this radiation absorbed?
Sunrays enter a greenhouse, heat up the ground, which, in turn, heats up the air inside the greenhouse. The glass roof and walls trap that warm air and temperatures increase.
Earth has no glass walls, but it does have the atmosphere, and within the atmosphere it has greenhouse gases.
Ninety-eight percent of the Earthâ€™s atmosphere is made up of nitrogen, oxygen, and argon. But they do not absorb much infrared radiation, and don’t contribute to the greenhouse effect.
Greenhouse gases like water vapour,Â carbon dioxide, ozone,Â methane,Â nitrous oxide, and chlorofluorocarbons do absorb heat, and thusÂ increase atmospheric temperatures.
Studies indicate that until some 2.7 billion years ago, there was so much carbon dioxide (CO2) and methane in our atmosphere that average temperatures on Earth were as high as 70 degrees Celsius.
But bacteria and plantsÂ slowly turned CO2 into oxygen and the concentration of CO2 in ourÂ current atmosphere dropped to just about 0.038 percent or 383 parts perÂ million (ppm).
Minuscule changes, global impact
Slight changes in the amounts of carbon dioxide in the atmosphere areÂ already changing the way our planetary heating system works.
Measurements of carbon dioxide amounts from Mauna Loa Observatory inÂ Hawaii show that CO2 has increased from about 313 ppm in 1960 to aboutÂ 375 ppm in 2005.
That means for every million particles in our atmosphere, there are now 62 CO2 particles more than in 1960.Â Even if this does not seem like much, scientists say thisÂ increaseâ€”most probably caused by human activitiesâ€”is mainlyÂ responsible for rising global temperatures throughout the lastÂ decades.
Even if the term â€œgreenhouse effectâ€ is somewhat of a misnomer,Â it still might be a useful handle from which the public can grasp anÂ otherwise intricate natural process.
Most people can relate to how hot and stuffy a greenhouse can get. NowÂ that the Earth has started to heat up, we realize that our own globalÂ greenhouse has no window that we can open to catch some fresh air.
Source: Allianz Knowledge Site by Thilo Kunzemann