Antarctic Ozone Hole Returns to Near
Average Levels
Improvement Noted After Last Year’s
Record Breaker
November 1, 2007
The size of this year’s
Antarctic ozone hole is slightly above the 10-year average in both depth and
overall area, NOAA scientists announced today. Last year’s ozone hole broke
records for both ozone loss within the critical layer and for the size of the
area affected. This year marks the 20th anniversary of the signing of the
Montreal Protocol, which set international limits on the emission of
ozone-depleting compounds, and is credited with beginning the process to recover
the Antarctic ozone hole.
“This year’s ozone hole is no
giant—and that’s good news,” said Earth System Research Laboratory
scientist Bryan Johnson, project leader for NOAA’s balloon-borne ozone
monitoring at the South Pole. “In spite of variations caused by temperature,
atmospheric dynamics, and other natural factors, we expect the ozone hole to
gradually appear smaller and smaller over time and eventually not form at all.”
The primary cause of ozone
depletion is human-produced compounds that release chlorine and bromine gases
into the stratosphere. The concentrations of these gases peaked in the lower
atmosphere in 1995 and in the stratosphere in 2001. The Montreal Protocol and
other regulations banning ozone-depleting substances have reversed the
destructive trend first noticed in the late 1980s. Because ozone-depleting gases
typically last 40 to 100 years in the atmosphere, full recovery is not expected
to be reached before 2070.
Scientists from ESRL measured
this year’s ozone minimum of 125 Dobson units Oct. 8. Dobson units are a
measure of total ozone in a vertical column of air, in this case between the
ground and the top of the atmosphere.
In the critical layer between 8
and 13 miles (14 and 21 kilometers) above the surface, the team found nearly
complete ozone destruction. This degree of depletion has become typical for
those altitudes at this time of year, though slightly more ozone remained this
year compared to last year.
The ozone hole reached a maximum
area of 9.3 million square miles (24 square kilometers) Sept. 13, well within
the average range for this stage of recovery, but still an area nearly as large
as North America.
Last year’s record-breaking
ozone loss plunged to 93 Dobson units Oct. 9 and covered nearly 11.4 million
square miles at its peak. Scientists blamed colder-than-usual temperatures in
the stratosphere for last year’s unusual size.
The ozone hole, located above
Antarctica, is a thinning of upper atmospheric ozone, which protects life on
Earth by blocking harmful ultraviolet-B rays from the sun. UV-B can cause skin
cancer and cataracts in humans, harm plant life, and degrade certain materials.
In the southern oceans, ultraviolet light is most dangerous to phytoplankton,
the base of the oceanic food chain.
NOAA scientists measure the
amount of ozone vertically using a balloon-borne instrument called an ozonesonde.
A team based at the South Pole launches balloons several times a week during the
early Southern Hemisphere spring.
The ESRL balloon measurements
showed the temperatures in the critical depletion layer were below average in
early September, but warmed to above average values in mid-September, bringing
the ozone reading back up to slightly above average.
From mid-September to
mid-October, the ozone hole area hovered about the average size for the past 10
years of observations, according to NOAA scientist Craig Long, who analyzes
ozone satellite data. It could take another decade of recovery before the
observations detect a real trend of progressively smaller ozone holes. Although
the amount of ozone-depleting substances has remained fairly constant during
this period, the size of the ozone hole has varied widely. Scientists attribute
these variations to the Southern Hemisphere's polar winter circulation and
temperatures. NOAA’s Solar Backscatter Ultraviolet 2 instrument aboard the
NOAA-18 satellite provides the area data.
The National Oceanic and
Atmospheric Administration, an agency of the U.S. Commerce Department, is
celebrating 200 years of science and service to the nation. From the
establishment of the Survey of the Coast in 1807 by Thomas Jefferson to the
formation of the Weather Bureau and the Commission of Fish and Fisheries in the
1870s, much of America's scientific heritage is rooted in NOAA.
NOAA is dedicated to enhancing
economic security and national safety through the prediction and research of
weather and climate-related events and information service delivery for
transportation, and by providing environmental stewardship of our nation's
coastal and marine resources. Through the emerging Global Earth Observation
System of Systems (GEOSS), NOAA is working with its federal partners, more than
70 countries and the European Commission to develop a global monitoring network
that is as integrated as the planet it observes, predicts and protects.
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