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Strategic Planning Document -
Environment and Natural Resources
Research Successes
New Findings Refocus Ozone Management Strategies
Recent research has provided a new
understanding of how the pollutant ozone is
produced in rural areas. Scientists from federal
agencies and universities, working together at
rural sites, now better understand the differences
in formation of ozone in urban and rural areas,
where it can be an important factor in agricultural
and forest productivity. This insight suggests that
ozone could be managed differently in rural areas
than in urban areas and opens more cost-effective
options for risk reduction.
Ozone formation in rural areas causes a
significant stress on our nation's agriculture and
forest industries. For example, recent estimates
suggest that a 25% reduction in ozone levels
would yield increased crop production in excess
of $2 billion per year. In addition, ozone is a
significant stress to ecosystems in many of our
national parks and wilderness areas. Ozone is
formed from volatile organic compounds (VOCs)
and nitrogen oxides in the atmosphere. In urban
areas, these compounds are emitted primarily by
human activities; hence, control strategies must
be tied to those activities. In rural areas, however,
VOCs are largely contributed by vegetation.
Nitrogen oxide control strategies may therefore
be the most effective way to combat high ozone
levels in rural areas.
Federal, state, and local agencies are
cooperating in studies to monitor and model
ground-level ozone, especially in rural areas. The
CAAAs can be formulated and implemented
more effectively when we understand the
processes involved, the regions of the country
affected, and the effects of reducing VOC or
nitrogen oxide emissions on ground-level ozone
formation.
Interagency Cooperation Pays Off with Long-Term
National Picture of Acidic Deposition
Since 1978, collaboration between federal
agencies, state organizations, universities,
public utilities, and industry has built a stable
air monitoring network through the National
Atmospheric Deposition Program (NADP).
This program has established a record of sulfur
and nitrogen emissions associated with human
activities, patterns of acidic deposition, and their
impacts on the natural environment. Information
from NADP was a key element in the
formulation of the CAAAs.
The NADP was created under the leadership
of the State Agricultural Experiment Stations.
During the 1980s, NAPAP integrated its new
National Trends Network with the NADP
network to provide a better picture of deposition
patterns. The network has documented national
trends in precipitation chemistry for over 15 years
and now consists of approximately 200 stations
nationwide, providing an unprecedented long-term
index of our nation's air quality. Time series of
observations of this nature and duration are
exceptionally rare in the environmental sciences.
This deposition record will continue to
document what's coming down and will
become even more valuable as the record gets
longer. In combination with complementary new
stations being planned for monitoring air
concentrations of key pollutants, these time series
will reveal what's changing and, perhaps more
importantly, why. With insights from regional
field campaigns and more descriptive theoretical
models, the United States will gain improved
predictive capabilities for managing air quality.
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