Common Questions About Ozone (2)
Scientific Assessment of Ozone Depletion: 1994
Executive Summary
World Meteorological Organization Global Ozone Research and Monitoring Project - Report No. 37
United Nations Environment Programme
World Meteorological Organization
National Oceanic and Atmospheric Administration
National Aeronautics and Space Administration
What is the Evidence that Stratospheric Ozone is Destroyed by Chlorine and Bromine?
Laboratory studies show that chlorine (Cl) reacts very rapidly with ozone. They also show that the reactive chemical chlorine oxide (ClO) formed in that reaction can undergo further processes which regenerate the original chlorine, allowing the sequence to be repeated very many times (a "chain reaction"). Similar reactions also take place between bromine and ozone.
But do these ozone-destroying reactions occur in the real world? All of our accumulated scientific experience demonstrates that if the conditions of temperature and pressure are like those in the laboratory studies, the same chemical reactions will take place in nature. However, many other reactions including those of other chemical species are often also taking place simultaneously in the stratosphere, making the connections among the changes difficult to untangle. Nevertheless, whenever chlorine (or bromine) and ozone are found together in the stratosphere, the ozone-destroying reactions must be taking place.
Sometimes a small number of chemical reactions is so important in the natural circumstance that the connections are almost as clear as in laboratory experiments. Such a situation occurs in the Antarctic stratosphere during the springtime formation of the ozone hole. During August and September 1987 - the end of winter and beginning of spring in the Southern Hemisphere - aircraft equipped with many different instruments for measuring a large number of chemical species were flown repeatedly over Antarctica. Among the chemicals measured were ozone and chlorine oxide, the reactive chemical identified in the laboratory as one of the participants in the ozone-destroying chain reactions. On the first flights southward from the southern tip of South America, relatively high concentrations of ozone were measured everywhere over Antarctica. By mid-September, however, the instruments recorded low concentrations of ozone in regions where there were high concentrations of chlorine oxide and vice versa, as shown in the figure. Flights later in September showed even less ozone over Antarctica, as the chlorine continued to react with the stratospheric ozone.
Independent measurements made by these and other instruments on this and other airplanes, from the ground, from balloons, and from satellites have provided a detailed understanding of the chemical reactions going on in the Antarctic stratosphere. Regions with high concentrations of reactive chlorine reach temperatures so cold (less than approximately -80°C, or -112°F) that stratospheric clouds form, a rare occurrence except during the polar winters. These clouds facilitate other chemical reactions that allow the release of chlorine in sunlight. The chemical reactions related to the clouds are now well understood through study under laboratory conditions mimicking those found naturally. Scientists are working to understand the role of such reactions of chlorine and bromine at other latitudes, and the involvement of particles of sulfuric acid from volcanoes or other sources.
Common Questions About Ozone
- [Introduction]
- How Can Chlorofluorocarbons (CFCs) Get to the Stratosphere If They're Heavier than Air?
- What is the Evidence that Stratospheric Ozone is Destroyed by Chlorine and Bromine?
- Does Most of the Chlorine in the Stratosphere Come from Human or Natural Sources?
- Can Changes in the Sun's Output Be Responsible for the Observed Changes in Ozone?
- When Did the Antarctic Ozone Hole First Appear?
- Why is the Ozone Hole Observed over Antarctica When CFCs Are Released Mainly in the Northern Hemisphere?
- Is the Depletion of the Ozone Layer Leading to an Increase in Ground-Level Ultraviolet Radiation?
- How Severe Is the Ozone Depletion Now, and Is It Expected to Get Worse?
Return to the WMO/UNEP Scientific Assessment of Ozone Depletion: 1994
- Executive Summary
- Common Questions About Ozone
- List of Authors, Contributors, and Reviewers of the Assessment
The World Wide Web version of the Executive Summary of the WMO/UNEP Scientific Assessment of Ozone Depletion: 1994 was prepared by Dr. Gregory P. Dubois-Felsmann of the National Center for Atmospheric Research, Boulder, Colorado, with support from NCAR's Advanced Study Program, in cooperation with Dr. Daniel L. Albritton and Dr. Christine A. Ennis of the NOAA Aeronomy Laboratory.
The Executive Summary may be reproduced or excerpted, without modification, provided the source is duly and conspicuously acknowledged in every instance as:
World Meteorological Organization, Scientific Assessment of Ozone Depletion: 1994, WMO Global Ozone Research and Monitoring Project - Report No. 37, Geneva, 1995.
Copies of the Executive Summary are available at no charge by writing to:
United Nations Environment Programme
Ozone Secretariat
P.O. Box 30552
Nairobi, Kenya
The Executive Summary was published in print in February 1995. The World Wide Web version was derived directly from the source of the printed edition and was made public in March 1996.