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R&M B dLL <br />are more frequent and can trap pollutants close to the ground. In terms of health, CO competes with <br />oxygen, often replacing it in the blood, thus reducing the blood's ability to transport oxygen to vital <br />organs. The results of excess CO exposure can be dizziness, fatigue, and impairment of central nervous <br />system functions. <br />Sulfur Oxides <br />Sulfur Dioxide (S02) is a colorless, pungent gas formed primarily by the combustion of sulfur -containing <br />fossil fuels. The main sources of S02 are coal and oil used in power plants and industries; as such, the <br />highest levels of S02 are generally found near large industrial complexes. In recent years, S02 <br />concentrations have been reduced by the increasingly stringent controls placed on stationary source <br />emissions of S02 and limits placed on the sulfur content of fuels. S02 is an irritant gas that attacks the <br />throat and lungs and can cause acute respiratory symptoms and diminished ventilator function in <br />children. S02 can also yellow plant leaves and erode iron and steel. <br />Particulate Matter <br />Particulate matter (PM) pollution consists of very small liquid and solid particles floating in the air, which <br />can include smoke, soot, dust, salts, acids, and metals. Particulate matter can form when gases emitted <br />from industries and motor vehicles undergo chemical reactions in the atmosphere. PM2.5 and PM10 <br />represent fractions of particulate matter. Fine particulate matter, or PM2.5, is roughly 1/28 the diameter <br />of a human hair. PM2.5 results from fuel combustion (e.g., motor vehicles, power generation, and <br />industrial facilities), residential fireplaces, and woodstoves. In addition, PM2.5 can be formed in the <br />atmosphere from gases such as sulfur oxides (SOx), NOx, and VOCs. Inhalable or coarse particulate <br />matter, or PM1o, is about one- seventh the thickness of a human hair. Major sources of PM10 include <br />dust stirred up by vehicles traveling on roads; crushing or grinding operations; wood -burning stoves <br />and fireplaces; dust from construction, landfills, and agriculture; wildfires and brush/waste burning; <br />industrial sources; windblown dust from open lands; and atmospheric chemical and photochemical <br />reactions. <br />PM2.5 and PM10 pose a greater health risk than larger -size particles. When inhaled, these tiny particles <br />can penetrate the human respiratory system's natural defenses and damage the respiratory tract. PM2.5 <br />and PM10 can increase the number and severity of asthma attacks, cause or aggravate bronchitis and <br />other lung diseases, and reduce the body's ability to fight infections. Very small particles of substances <br />such as lead, sulfates, and nitrates can cause lung damage directly or be absorbed into the <br />bloodstream, causing damage elsewhere in the body. Additionally, these substances can transport <br />absorbed gases, such as chlorides or ammonium, into the lungs, also causing injury. Whereas PM10 <br />tends to collect in the upper portion of the respiratory system, PM2.5 is so tiny that it can penetrate <br />deeper into the lungs and damage lung tissues. Suspended particulates also damage and discolor <br />surfaces on which they settle, as well as produce haze and reduce regional visibility. <br />3 An STR Ban Will Increase Air Pollutant Emissions and Greenhouse Gas <br />Emissions <br />There are approximately 1,000 active Airbnb listings in Santa Ana. Elimination of these Airbnb rentals <br />and other short-term rentals in Santa Ana and the corresponding increase in guests at Santa Ana hotels <br />3/14 <br />