Air Quality Trends | AirTrends | Air & Radiation | EPA

Air Quality Trends | AirTrends | Air & Radiation | EPA

Air Quality Trends

On this page...

• Air Quality Trends
• Emissions Trends
• Weather Influence

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Air Quality Trends

EPA creates air quality trends using measurements from monitors located across the country. The table below show that air quality based on concentrations of the common pollutants has improved nationally since 1980. (See the trends graphs for 1980-2014, 1990-2014 and 2000-2014.)

Percent Change in Air Quality   1980 vs 2014 1990 vs 2014 2000 vs 2014   Carbon Monoxide (CO) -85 -77 -60 Ozone (O3)  (8-hr) -33 -23 -18 Lead (Pb) -98 -97 -87 Nitrogen Dioxide (NO2) (annual) -60 -52 -43 Nitrogen Dioxide (NO2) (1-hour) -57 -45 -29 PM10 (24-hr) --- -36 -30 PM2.5 (annual) --- --- -35 PM2.5 (24-hr) --- --- -36 Sulfur Dioxide (SO2) (1-hour) -80 -76 -62 Notes: 1. --- Trend data not available 2. Negative numbers indicate improvements in air quality

National and local air quality trends graphs showing the nation’s progress towards clean air are available for: carbon monoxide (CO), ozone (O₃), lead (Pb), nitrogen dioxide (NO₂), particulate matter (PM), and sulfur dioxide (SO₂).

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Emission Trends

EPA estimates nationwide emissions of ambient air pollutants and the pollutants they are formed from (their precursors). These estimates are based on actual monitored readings or engineering calculations of the amounts and types of pollutants emitted by vehicles, factories, and other sources. Emission estimates are based on many factors, including levels of industrial activity, technological developments, fuel consumption, vehicle miles traveled, and other activities that cause air pollution.
Emissions information is developed with input from state and local air agencies, tribes, and industry.  EPA tracks a range of emissions data, including how much of each pollutant is emitted from various pollution sources.  To view national, state, and local emissions summary data, see EPA’s Air Emission Sources site. The table below shows that emissions of the common air pollutants and their precursors have been reduced substantially since 1980.

Percent Change in Emissions   1980 vs 2014 1990 vs 2014 2000 vs 2014   Carbon Monoxide (CO) -69 -62 -46 Lead (Pb) -99 -80 -50 Nitrogen Oxides (NOx) -55 -51 -45 Volatile Organic Compounds (VOC) -53 -38 -16 Direct PM10 -58 -19 -16 Direct PM2.5 --- -25 -33 Sulfur Dioxide (SO2) -81 -79 -70 Notes: 1. --- Trend data not available 2. Direct PM10 emissions for 1980 are based on data since 1985 3. Negative numbers indicate reductions in emissions 4. Percent change in emissions based on thousand tons units

Emissions of air pollutants continue to play an important role in a number of air quality issues. In 2014, about 89 million tons of pollution were emitted into the atmosphere in the United States. These emissions mostly contribute to the formation of ozone and particles, the deposition of acids, and visibility impairment. To get detailed information about emissions estimates displayed below, please visit EPA's Clearinghouse for Inventories and Emissions Factors (CHIEF).

Annual emissions estimates are used as one indicator of the effectiveness of our programs. The graph below shows that between 1980 and 2014, gross domestic product increased 147 percent, vehicle miles traveled increased 97 percent, energy consumption increased 26 percent, and U.S. population grew by 41 percent. During the same time period, total emissions of the six principal air pollutants dropped by 63 percent. The graph also shows that between 1980 and 2013, CO₂ emissions increased by 17 percent.

Note: CO2 emissions estimate through 2013 (Source: 2014 US Greenhouse Gas Inventory Report)          Gross Domestic Product: Bureau of Economic Analysis          Vehicle Miles Traveled: Federal Highway Administration          Population: Census Bureau          Energy Consumption: Dept. of Energy, Energy Information Administration          Aggregate Emissions: EPA Clearinghouse for Inventories and Emissions Factors

(see the graphic above for 1970-2014)
Despite great progress in air quality improvement, approximately 57 million people nationwide lived in counties with pollution levels above the primary NAAQS in 2014.

Multiple years of data are generally used to determine if an area attains the NAAQS. The chart above is for one year only. Source: U.S. Census Bureau, Population Division http://www.census.gov/population/metro/data/def.html

In addition, from 1990 to 2008, emissions of air toxics declined by approximately 62 percent. These reductions are the result of implementing stationary and mobile source regulations. The majority of the air toxics emitted in 2008 are also precursors of ozone and/or particle pollution.
In recent years, EPA has acted to dramatically improve America's air quality by designing and developing national programs that, when fully implemented, will achieve significant reductions in air emissions. The associated air quality benefits will lead to improved health, longevity, and quality of life for all Americans.

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Weather Influence

Weather conditions influence emissions and air quality.  EPA has developed statistical approaches to account for weather’s influence on ozone and fine particles.  While these approaches do not change the quality of air we breathe, they do help us understand how well emission reduction programs are working. More information on trends in ozone adjusted for weather conditions can be found at http://www.epa.gov/airtrends/weather.html.