Common (Criteria) Pollutants

The criteria pollutants are six common and widespread outdoor ambient air pollutants, including carbon monoxide (CO), lead (Pb), nitrogen dioxide (NO₂), ozone (O₃), particulate matter (PM), and sulfur dioxide (SO₂). Each of these pollutants poses adverse health and environmental effects, as described below.

United States Environmental Protection Agency (U.S. EPA) sets National Ambient Air Quality Standards (NAAQS) for each of these pollutants in accordance with the federal Clean Air Act. The NAAQS define allowable concentrations of the substances in ambient (outdoor) air. U.S. EPA’s NAAQS table details the current standards for each substance and how violations are determined. States monitor for the criteria pollutants in the outdoor ambient air and report air quality data to U.S. EPA’s Air Quality System (AQS). U.S. EPA periodically reviews the NAAQS and may issue new or revised standards based on the latest health, environmental, and technological advances. U.S. EPA issues air quality designations for new and revised standards in all areas of the country, and issues “nonattainment” designations to areas that have monitored pollutants above the standards or contribute significantly to nearby violations. IDEM’s Nonattainment Status for Indiana’s Counties page includes a map of nonattainment areas for the criteria pollutants.

IDEM maintains Indiana’s State Implementation Plan (SIP), which is a collection of documents describing how the state will implement, maintain, and enforce the NAAQS. Types of documents include statewide Infrastructure SIPs describing the state’s legal authority, regional haze SIPs, transportation conformity SIPs , attainment demonstrations describing how “nonattainment” areas will achieve the NAAQS, and requests for redesignation and maintenance plans for nonattainment areas that achieve the NAAQS. IDEM provides SIP documents for each criteria pollutant online, as listed below.

Carbon Monoxide

Carbon monoxide (CO) is a colorless, odorless gas that is primarily emitted from combustion processes. The majority of CO emissions comes from mobile sources (motor vehicles), especially in urban areas, and machinery that burns fossil fuel. CO is very dangerous and harmful to human health and the environment because it can reduce the amount of oxygen delivered to the body’s organs such as the heart and the brain. At very high levels, which are possible indoors and in other enclosed spaces, CO can lead to dizziness, confusion, unconsciousness, and death. People with certain types of heart disease may be more severely affected by short-term exposure to elevated CO outdoors.

• Air Quality: Carbon Monoxide (CO) Fact Sheet (available on the IDEM Fact Sheets page)
• SIP Documents:
  • Requests for Redesignation and Maintenance Plans Specific to Carbon Monoxide
  • Statewide Infrastructure SIP Documents
• U.S. EPA Air Quality: Carbon Monoxide
• U.S. EPA: How CO Standards Have Changed Over Time

Lead

Lead (Pb) is a metal that is both naturally occurring and found in manufactured products. It is toxic to both humans and animals, with small children being at the highest risk for lead poisoning. Sources of lead emissions in the atmosphere include smelters, mining operations, waste incinerators, battery recycling, and the production of lead shot and fishing sinkers. Lead is also released by burning coal, oil, or solid waste. In older homes and buildings, lead-based paint may be present and, if not maintained or properly removed, can produce lead dust. The plumbing in some older buildings may contain lead pipes, or lead solder may have been used to fuse pipe joints.

• Air Quality: Lead (Pb) Fact Sheet (available on the IDEM Fact Sheets page)
• SIP Documents:
  • Attainment Demonstrations Specific to Lead
  • Air Quality Designations Specific to Lead
  • Requests for Redesignation and Maintenance Plans Specific to Lead
  • Statewide Infrastructure SIP Documents
• U.S. EPA Air Quality: Lead
• U.S. EPA: How Lead Standards Have Changed Over Time

Nitrogen Dioxide

Nitrogen dioxide (NO₂) is part of a group of highly reactive gases known as oxides of nitrogen (NO_x). NO₂ is harmful to human health, particularly the respiratory system and contributes to the formation of other air pollutants including PM, ozone, acid rain, and regional haze, which blocks natural sunlight and reduces visibility. NO₂ is emitted from many sources when fuel is burned at high temperatures, including industrial, commercial, and residential combustion, motor vehicles, and electric utilities. Individuals who spend time on or near major roadways are at higher risk for short-term exposure.

While all NO_x gases are harmful to human health and the environment, U.S. EPA has determined NO₂ to be of greater concern. U.S. EPA has determined that NO₂ is an appropriate indicator for NO_x and that measures for reducing exposure to NO₂ will also reduce exposures to NO_x.

• Air Quality: Nitrogen Dioxide (NO₂) Fact Sheet (available on the IDEM Fact Sheets page)
• SIP Documents:
  • Statewide Infrastructure SIP Documents
• U.S. EPA Air Quality: Nitrogen Dioxide
• U.S. EPA: How NO₂ Standards Have Changed Over Time

Ozone

Ozone (O₃), or “ground-level ozone”, is identified by scientists as being harmful to both humans and the environment. Where it naturally occurs high in the atmosphere, ozone protects the earth from the sun’s ultraviolet rays. However, at ground level, ozone can inflame and damage lungs, increase the frequency of asthma attacks, and make the lungs more susceptible to infection. Ground-level ozone is not emitted directly by any one source but instead, is formed in the atmosphere by a chemical reaction between other directly emitted pollutants including oxides of nitrogen (NO_x) and volatile organic compounds (VOCs). VOCs include numerous chemical compounds that are common ingredients in solvents and products and easily evaporate. Major contributors of NO_x and VOCs that lead to the creation of ozone include motor vehicle exhaust (from cars, trucks, off-road vehicles, agricultural, and construction vehicles), industrial emissions, gasoline vapors, and chemical solvents.

• Air Quality: Ozone (O₃) Fact Sheet (available on the IDEM Fact Sheets page)
• SIP Documents:
  • Attainment Demonstrations Specific to Ozone
  • Air Quality Designations Specific to Ozone
  • Requests for Redesignation and Maintenance Plans Specific to Ozone
  • Statewide Infrastructure SIP Documents
• Ozone Season Summary Reports
• U.S. EPA Air Quality: Ozone
• U.S. EPA: How Ozone Standards Have Changed Over Time

Particulate Matter

Particulate matter (PM), also known as particle pollution, is a mixture of extremely small particles found in the air, including dust, dirt, soot, smoke, and liquid droplets. Two kinds of particulate matter are identified as being harmful to human health: fine particles (PM_2.5), which are 2.5 micrometers in diameter or smaller and typically found in smoke or haze; or inhalable coarse particles (PM₁₀), which are between 2.5 micrometers and 10 micrometers in diameter and can be found near roadways and dusty industries. For comparison, the width of a human hair is approximately 70 micrometers. Particulate matter is derived from many different sources, including residential combustion activities and vehicle exhaust. Exposure to particulate matter has been linked to a variety of health problems, particularly within the respiratory and cardiovascular systems.

• Air Quality: Particulate Matter (PM_2.5 and PM₁₀) Fact Sheet (available on the IDEM Fact Sheets page)
• SIP Documents:
  • Attainment Demonstrations Specific to Particulate Matter
  • Air Quality Designations Specific to Particulate Matter
  • Requests for Redesignation and Maintenance Plans Specific to Particulate Matter
  • Statewide Infrastructure SIP Documents
• Fine Particles Summary Reports
• U.S. EPA Air Quality: Particulate Matter
• U.S. EPA: How PM Standards Have Changed Over Time

Sulfur Dioxide

Sulfur dioxide (SO₂) is part of a group of highly reactive gaseous pollutants known as oxides of sulfur (SO_x) and is emitted primarily by industrial furnaces or power plants burning coal or oil-containing sulfur. Other sources of SO₂ include industrial processes such as extracting metal from ore and the burning of high sulfur fuels. SO₂ is considered harmful to human health and has been linked with many adverse health effects, particularly within the respiratory system. In the atmosphere, SO₂ pollution damages vegetation and contributes to harmful PM, regional haze, and acid rain. While all of the SO_x gases are harmful to human health and the environment, U.S. EPA has determined SO₂ to be of greater concern. U.S. EPA has determined that SO₂ is an appropriate indicator for SO_x and that measures for reducing exposure to SO₂ will also reduce exposures to SO_x.

• Air Quality: Sulfur Dioxide (SO₂) Fact Sheet (available on the IDEM Fact Sheets page)
• SIP Documents:
  • Attainment Demonstrations Specific to Sulfur Dioxide
  • Air Quality Designations Specific to Sulfur Dioxide
  • Requests for Redesignation and Maintenance Plans Specific to Sulfur Dioxide
  • Statewide Infrastructure SIP Documents
• Sulfur Dioxide Summary Reports
• U.S. EPA Air Quality: Sulfur Dioxide (SO₂)
• U.S. EPA: How SO₂ Standards Have Changed Over Time

More Information

Additional information about criteria air pollutants is available on U.S. EPA’s Criteria Air Pollutants page.