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Pollutants <br />Pollutants are generally classified as either criteria pollutants or non -criteria pollutants. Federal ambient air <br />quality standards have been established for criteria pollutants, whereas no ambient standards have been <br />established for non -criteria pollutants. For some criteria pollutants, separate standards have been set for <br />different periods. Most standards have been set to protect public health. For some pollutants, standards have <br />been based on other values (such as protection of crops, protection of materials, or avoidance of nuisance <br />conditions). A summary of federal and state ambient air quality standards is provided in the Regulatory <br />Framework section. <br />Criteria Pollutants <br />The criteria pollutants consist of: ozone, nitrogen dioxide, carbon monoxide, sulfur dioxide, lead, and <br />particulate matter. These pollutants can harm your health and the environment, and cause property damage. <br />The Environmental Protection Agency (EPA) calls these pollutants "criteria" air pollutants because it regulates <br />them by developing human health -based and/or environmentally -based criteria for setting permissible levels. <br />The following provides descriptions of each of the criteria pollutants. <br />Nitrogen Dioxides <br />Nitrogen Oxides (NOx) is the generic term for a group of highly reactive gases which contain nitrogen and <br />oxygen. While most NOx are colorless and odorless, concentrations of nitrogen dioxide (NO2) can often be <br />seen as a reddish -brown layer over many urban areas. NOx form when fuel is burned at high temperatures, <br />as in a combustion process. The primary manmade sources of NOx are motor vehicles, electric utilities, and <br />other industrial, commercial, and residential sources that burn fuel. NOx reacts with other pollutants to form, <br />ground -level ozone, nitrate particles, acid aerosols, as well as NO2, which cause respiratory problems. NOx <br />and the pollutants formed from NOx can be transported over long distances, following the patterns of <br />prevailing winds. Therefore, controlling NOx is often most effective if done from a regional perspective, rather <br />than focusing on the nearest sources. <br />Ozone <br />Ozone (03) is not usually emitted directly into the air but at ground -level is created by a chemical reaction <br />between NOx and volatile organic compounds (VOC) in the presence of sunlight. Motor vehicle exhaust, <br />industrial emissions, gasoline vapors, chemical solvents as well as natural sources emit NOx and VOC that help <br />form ozone. Ground -level ozone is the primary constituent of smog. Sunlight and hot weather cause ground - <br />level ozone to form with the greatest concentrations usually occurring downwind from urban areas. Ozone is <br />subsequently considered a regional pollutant. Ground -level ozone is a respiratory irritant and an oxidant that <br />increases susceptibility to respiratory infections and can cause substantial damage to vegetation and other <br />materials. Because NOx and VOC are ozone precursors, the health effects associated with ozone are also <br />indirect health effects associated with significant levels of NOx and VOC emissions. <br />Carbon Monoxide <br />Carbon monoxide (CO) is a colorless, odorless gas that is formed when carbon in fuel is not burned completely. <br />It is a component of motor vehicle exhaust, which contributes about 56 percent of all CO emissions <br />nationwide. In cities, 85 to 95 percent of all CO emissions may come from motor vehicle exhaust. Other <br />sources of CO emissions include industrial processes (such as metals processing and chemical manufacturing), <br />residential wood burning, and natural sources such as forest fires. Woodstoves, gas stoves, cigarette smoke, <br />and unvented gas and kerosene space heaters are indoor sources of CO. The highest levels of CO in the <br />outside air typically occur during the colder months of the year when inversion conditions are more frequent. <br />The air pollution becomes trapped near the ground beneath a layer of warm air. CO is described as having <br />only a local influence because it dissipates quickly. Since CO concentrations are strongly associated with motor <br />vehicle emissions, high CO concentrations generally occur in the immediate vicinity of roadways with high <br />Cabrillo at First Mixed Use Residential <br />g3ldJ101 <br />Air Quality, Global Climate Change, HRA, and Energy Impact Analysis <br />R 19386 <br />