Each August, as sunlight begins to pierce the winter-long Antarctic night, UV radiation splits apart diatomic chlorine molecules that have formed on stratospheric clouds above the South Pole, and the freed radicals catalyze the breakup of ozone. For the past two and a half decades, increased chlorine concentrations from anthropogenic chlorofluorocarbons and related chemicals have led to extensive ozone depletion—the “Antarctic ozone hole.’
The ozone hole reaches its greatest horizontal extent in late September or early October. This false-color image of ozone concentrations, based on UV and IR measurements by the National Oceanic and Atmospheric Administration, shows the ozone hole (in red) on 26 September 2010, at its maximal extent for the year. At roughly 20 million square kilometers, its area is larger than that of Russia.
Ozone concentrations are measured in Dobson units (DU). One DU of ozone would form a layer 10 µm thick at standard temperature and...