Tiny particles
in air kill 900 every year in Atlanta, study says
By Charles Seabrook
May 9, 1996
More than 900 people
in metro Atlanta die each year from microscopic particles of soot,
dust, gaseous droplets and other fine matter spewing from smokestacks
and car exhausts, says a study released Wednesday.
Nationwide, "particulate matter" at levels far below
what the U.S. Environmental Protection Agency considers safe is
causing 64,000 people to die early of heart and lung maladies
each year, said the study by the Natural Resources Defense Council.
An estimated 946 of those deaths occur in the 13-county metro
Atlanta area.
Atlanta ranked No.14 out of 239 metropolitan areas in the number
of deaths attributable to particulate matter.
In a statement, EPA Administrator Carol Browner said she welcomed
the new study. "A growing body of evidence now suggests that
particulate matter poses a serious threat to public health in
many American cities and may contribute to premature deaths from
heart and lung disease", she said.
Rafael Ballagas, an air quality expert at Georgia's Environmental
Protection Division, said the state anticipates the EPA will severely
tighten particulate matter standards this year, and the EPD has
ordered new air monitoring equipment for Atlanta to comply with
the new standards.
Whether Atlanta can meet the new limits will depend on how tightly
EPA sets the standards, Ballagas said. Metro Atlanta is currently
in compliance with EPA's particulate matter standard, but the
area perennially violates the standard for ozone, another dangerous
pollutant.
According to the new study, Atlanta ranks No. 19 in the nation
for the worst levels of particulate matter.
Particulate matter is made up of particles 10 microns or less
in size - less than one-seventh the width of a human hair. The
very fine particles can be inhaled into the lungs, where they
weaken lung and heart tissue. Larger particles are effectively
filtered out by the human respiratory system before they are inhaled.
The NRDC study, as well as a number of other studies by Harvard
University and the American Cancer Society, suggests particulate
matter is now more dangerous than ozone, the major component of
smog.
The new study is the first to estimate the extent of mortality
in specific metropolitan areas from particulate air pollution.
"The conclusions [of the report] are sound" , said Dr.
Howard Frumkin Emory University associate professor of environmental
and occupational health.
Deaths
and particulates
The metropolitan
areas with the highest number of deaths attributed to soot, smoke,
dust
and other fine particles:
| City
|
Deaths |
| 1
Los Angeles-Long Beach |
5,873 |
| 2
New York |
4,024 |
| 3
Chicago |
3,479 |
| 4
Philadelphia |
2,599 |
| 5
Detroit |
2,123 |
| 6
Riverside-San Bernadino, Calif. |
1,905 |
7
San Francisco-Oakland
|
1,270 |
8
Pittsburgh
|
1,216 |
9
St. Louis
|
1,195 |
10
Cleveland
|
1,161 |
11
Phoenix
|
1,110 |
12
Anaheim-Santa Ana, Calif.
|
1,053 |
13
San Diego
|
999 |
14
Atlanta
|
946 |
15
Houston
|
939 |
138
Columbus
|
76 |
|
145 Augusta
|
68
|
Caution urged on
use of ozone to clean air
IAQ expert
Michael A. Price, MAP Environmental, Sterling, Va., says he continues
to get inquiries from contractors interested in the use of ozone
as an air-filtration device.
In general, he gives a thumbs-down and prescribes other ways of
improving a building's indoor air quality.
"When ozone is introduced into the airstream on a continual
basis at low concentrations", Price said, "it has pleasant
odor characteristics and will mask indoor air pollutants that
may exist in a home or office.
"This can be a potentially dangerous situation, especially
when dangerous chemical odors are masked. The use of agents to
mask indoor air quality problems is strongly discouraged by the
IAQ industry".
Price said use of deodorizers and sealants falls under the same
category.
"Indoor air quality problems should always be identified
and properly abated, and necessary engineering modifications implemented
to prevent recurrence."
Price cites information taken from the National Safety Council's
"Fundamentals of Industrial Hygiene."
| · |
Ozone
is an irritant that affects both the upper respiratory tract
and lung tissue. |
| · |
Ozone
is a colorless, explosive gas. |
| · |
It has a pleasant characteristic odor in concentrations of
less than 2 PPM. |
| · |
It is slightly water soluble and is used as a disinfectant. |
| · |
The
threshold limit value (TLV) for ozone is 0.1 PPM, which caused
no obvious injury by may result in premature aging, similar
to that from continued exposure to ionizing radiation, if
exposure is sufficiently prolonged. |
| · |
Daily
intermittent exposure above 5 PPM (reported for arc welders)may
cause incapacitating pulmonary congestion. |
| · |
Occupation
dermatitis can be caused by chemical agents including oxidizers.
Ozone is an oxidizer, which unites with hydrogen and liberates
nascent oxygen on the skin, causing skin reactions. |
| · |
Ozone
is a soluble gas that has the potential to reach the deeper
recesses of the respiratory tract, affecting mainly the bronchiole
and the adjacent alveolar spaces, where it may produce pulmonary
edema within a few hours when present in elevated levels. |
| · |
Ozone
reacts with all oxidizable materials (organic and inorganic). |
| · |
Ozone
is an irritant to eyes and mucus membranes. It causes pulmonary
edema and respiratory disease. |
| · |
There
is mounting evidence of chronic effects from longer-term or
recurring exposures to ozone at or below levels of acute concentration.
Price said he does not recommend ozone treatment except for
cases such as restoration work (after a fire, for instance),
severe microbial mitigation, and food storage. And then, applicators
must be properly trained, and ozone levels monitored and brought
back to background levels prior to reoccupancy. |
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