Good Up High
What is
ozone?
Ozone is a gas that occurs
both in the Earth's upper
atmosphere and at ground level.
Ozone can be "good" or "bad" for
your health and the environment,
depending on its location in the
atmosphere.
How Can
Ozone Be Both Good and Bad?
Ozone occurs in two layers of
the atmosphere. The layer
closest to the Earth's surface
is the troposphere. Here,
ground-level or "bad" ozone is
an air pollutant that is harmful
to breathe and it damages crops,
trees and other vegetation. It
is a main ingredient of urban
smog. The troposphere generally
extends to a level about 6 miles
up, where it meets the second
layer, the stratosphere. The
stratosphere extends upward from
about 6 to 30 miles. The
stratospheric or "good" ozone
protects life on Earth from the
sun's harmful ultraviolet (UV)
rays.
What is
Happening to the "Good" Ozone
Layer?
Ozone is produced naturally
in the stratosphere. But this
"good" ozone is gradually being
destroyed by man-made chemicals
referred to as ozone-depleting
substances (ODS), including
chlorofluorocarbons (CFCs),
hydrochlorofluorocarbons (HCFCs),
halons, methyl bromide, carbon
tetrachloride, and methyl
chloroform. These substances
were formerly used and sometimes
still are used in coolants,
foaming agents, fire
extinguishers, solvents,
pesticides, and aerosol
propellants. Once released into
the air these ozone-depleting
substances degrade very slowly.
In fact, they can remain intact
for years as they move through
the troposphere until they reach
the stratosphere. There they are
broken down by the intensity of
the sun's UV rays and release
chlorine and bromine molecules,
which destroy the "good" ozone.
Scientists estimate that one
chlorine atom can destroy
100,000 "good" ozone molecules.
Even though we have reduced
or eliminated the use of many
ODSs, their use in the past can
still affect the protective
ozone layer. Research indicates
that depletion of the "good"
ozone layer is being reduced
worldwide. Thinning of the
protective ozone layer can be
observed using satellite
measurements, particularly over
the Polar Regions.
How
Does the Depletion of "Good"
Ozone Affect Human Health and
the Environment?
Ozone depletion can cause
increased amounts of UV
radiation to reach the Earth
which can lead to more cases of
skin cancer, cataracts, and
impaired immune systems.
Overexposure to UV is believed
to be contributing to the
increase in melanoma, the most
fatal of all skin cancers. Since
1990, the risk of developing
melanoma has more than doubled.
UV can also damage sensitive
crops, such as soybeans, and
reduce crop yields. Some
scientists suggest that marine
phytoplankton, which are the
base of the ocean food chain,
are already under stress from UV
radiation. This stress could
have adverse consequences for
human food supplies from the
oceans.
What is
Being Done About the Depletion
of "Good" Ozone?
The United States, along with
over 180 other countries,
recognized the threats posed by
ozone depletion and in 1987
adopted a treaty called the
Montreal Protocol to phase out
the production and use of
ozone-depleting substances.
EPA has established
regulations to phase out
ozone-depleting chemicals in the
United States. Warning labels
must be placed on all products
containing CFCs or similar
substances and nonessential uses
of ozone-depleting products are
prohibited. Releases into the
air of refrigerants used in car
and home air conditioning units
and appliances are also
prohibited. Some substitutes to
ozone-depleting products have
been produced and others are
being developed. If the United
States and other countries stop
producing ozone-depleting
substances, natural ozone
production should return the
ozone layer to normal levels by
about 2050.