Understanding the Ozone Hole - a video designed for high school level students
A CIRES/NOAA scientist and videographer has developed a short, educational video that focuses on the causes of the Antarctic ozone hole.
October 2012 video update of the South Pole ozone hole
NOAA scientists explain why the ozone hole forms, how NOAA monitors and studies ozone loss, and why it matters.
The Antarctic Ozone Hole
The Antarctic Ozone Hole was discovered by the British Antarctic Survey from data obtained with a Dobson ozone spectrophotometer at Halley Bay station in the 1981-1983 period. They reported the October ozone loss in 1985. Satellite measurements then confirmed that the springtime ozone loss was a continent-wide feature. Research conducted during the National Ozone Expeditions to the U.S. McMurdo Station in 1986 and 1987, and NASA stratospheric aircraft flights into the Antarctic region from Chile in 1987 showed conclusively that the ozone loss was related to halogen (chlorine)-catalyzed chemical destruction which takes place following spring sunrise in the Antarctic polar region. The chlorine is derived from manmade chlorofluorocarbons (CFCs) which have migrated to the stratosphere and have been broken down by solar ultraviolet light, freeing chlorine atoms. The cold dark Antarctic winter, with its stratospheric ice clouds mixed with manmade chlorine, sets the stage for springtime chemical ozone destruction when the missing ingredient in the photochemical reactions, sunlight, appears.
Owing to Montreal Protocal regulations on the production of certain ozone-destroying, chlorinated compounds, which went into effect in January 1996, the atmospheric concentration of some of these man-made substances has begun to decline (CFC-11 vs. Time Plot and other CFC info). The recovery from the ozone hole is a slow process. In order to easily understand this process, NOAA has developed an index, the Ozone Depleting Gas Index (ODGI), which relates the current ozone measurements to the pre-ozone hole era (circa 1980). The index is calculated directly from observations at Earth's surface of the most abundant long-lived, chlorine and bromine containing gases regulated by the Montreal Protocol (15 individual chemicals).
GMD's history in the South Pole ozone program
Ozone monitoring by NOAA and its predecessors at the Amundsen-Scott South Pole Station goes back to 1961 when the first Dobson spectrophotometer measurements were made. These measurements are still continuing. Dobson instruments, as well as satellite instruments such as TOMS, measure ozone by detecting the amount of solar ultraviolet radiation able to penetrate through the stratospheric ozone layer. Reduced ozone results in increased ultraviolet (the reason that the ozone layer is important). Since these instruments are inoperable at the South Pole during the dark winter, the NOAA GMD began weekly ozone balloon soundings from the South Pole in 1986. During the austral spring (September to November), the sounding frequency is increased to about 3 per week in an ongoing study of the Antarctic Ozone Hole. These soundings have revealed total destruction of springtime ozone in the 14 to 19 km altitude region of the stratosphere. The lowest springtime total ozone measured during the 1986-1997 period at the South Pole was 89 Dobson Units (DU) on October 12, 1993. This may be compared with values of about 300 DU in October 1970.
Other information about the ozone hole and ozone layer:
- Polar stratospheric data from NCEP/Climate Prediction Center
- Satellite images of total ozone over Antarctica from TOMS
- Ozone hole information from the EPA
- NOAA Ozone Page
- Ozone Assessment Reports
NOAA News Items on the Ozone Hole
- October 2014: Antarctic ozone hole similar to last year
- September 2014: Report: telltale signs that ozone layer is recovering
- October 2013: Encouraging information from this year’s observations of the Antarctic ozone hole
- October 2012: NOAA, NASA: Antarctic ozone hole second smallest in 20 years
- October 2011: NOAA, NASA: Significant ozone hole remains over Antarctica
- March 2011: Bryan Johnson
- February 2011: Study: Ozone Layer’s Future Linked Strongly to Changes in Climate
- November 2009: Significant Ozone Hole Remains Over Antarctica
- November 2008: 2008 Sees Fifth Largest Ozone Hole
- November 2007: Antarctic Ozone Hole Returns to Near Average Levels
- October 2006: Antarctic Ozone Hole A Record Breaker
- August 2006: NOAA, NSF Observe 20th Anniversary of Ozone Hole ‘Success Story’
- February 2005: Scientists Brave Brutal Elements On Top of the World to Study Ozone Layer
- June 2004: NOAA Scientist Receives Prestigioos Award For Work On Ozone Hole
- January 2000: NOAA Scientist Receives Nation's Highest Scientific Honor