Thomas Butler Kenneth Colburn C. Driscoll David Grigal Dallas Burtraw 2005 <p>Acid deposition, more commonly known as acid rain,&nbsp;occurs when emissions of sulfur dioxide (SO2) and nitrogen&nbsp;oxides (NOx) react in the atmosphere (with water, oxygen,&nbsp;and oxidants) to form various acidic compounds. These&nbsp;acidic compounds then fall to earth in either a wet form&nbsp;(rain, snow, and fog) or a dry form (gases, aerosols, and&nbsp;particles). Prevailing winds transport the acidic compounds&nbsp;hundreds of miles, often across state and national borders.&nbsp;At certain levels the acidic compounds, including small particles such as sulfates and nitrates can cause many negative&nbsp;human health and environmental effects. While ecosystems&nbsp;are subject to many stresses, including land-use changes,&nbsp;climate change, and variations in hydrologic and meteorologic cycles, the scientific literature has clearly demonstrated&nbsp;that these pollutants can:<br>• Degrade air quality,<br>• Impair visibility,<br>• Damage public health,<br>• Acidify lakes and streams,<br>• Harm sensitive forests,<br>• Harm sensitive coastal ecosystems, and<br>• Accelerate the decay of building materials, paints, and&nbsp;cultural artifacts such as buildings, statues, and&nbsp;sculptures.<br></p><p>Title IV was passed by Congress as part of the 1990 Clean&nbsp;Air Act Amendments to reduce emissions of SO₂ and NO_x&nbsp;from fossil fuel-burning power plants in order to protect<br>ecosystems suffering damage from acid deposition and to&nbsp;improve air quality. At the same time, the National Acid&nbsp;Precipitation Assessment Program (NAPAP) was asked to&nbsp;periodically assess and report to Congress on the&nbsp;implementation of the Acid Rain Program, recent scientific&nbsp;knowledge surrounding acid deposition and its effects, and<br>the reduction in acid deposition necessary to prevent&nbsp;adverse ecological effects. This NAPAP Report focuses primarily on emission reductions from power plants, both in&nbsp;terms of assessing past reductions under the Acid Rain&nbsp;Program and in projecting the ecological effects of additional reductions of SO₂ and NO_x. </p><p>It should be noted that power generation&nbsp;currently contributes approximately 69% of&nbsp;the SO₂ emissions and 22% of the NO_x emissions nationwide. This contribution is&nbsp;decreasing as emissions from power generation continue to decrease, making the other&nbsp;sources of these pollutants more prominent.&nbsp;Modeling suggests that even if SO₂<br>emissions from power generation were&nbsp;reduced to zero, some lakes and streams&nbsp;would remain acidic due to acid deposition.&nbsp;However, there are several other regulations&nbsp;that reduce emissions of SO₂ and NO_x from&nbsp;these non-power generation sources, such&nbsp;as the Tier II mobile source standards, the&nbsp;Heavy Duty Diesel standards, and the Clean&nbsp;Air Non-Road Diesel Rule, that have also&nbsp;been promulgated since 1990. These regulations, primarily designed to bring counties&nbsp;into attainment with fine particle and ozone&nbsp;air quality standards, also incidentally reduce&nbsp;emissions that contribute to acid deposition.</p><p>Implementation of Title IV has successfully&nbsp;and substantially reduced emissions of SO_2&nbsp;and NO_x from power generation at a significantly lower cost than expected:<br>• In 2002, SO₂ emissions were 10.2 million&nbsp;tons, 35% lower than 1990 emissions and&nbsp;40% lower than 1980 emissions.*<br>• In 2002, NO_x emissions were 4.5 million&nbsp;tons, 33% lower than 1990 emissions.<br></p><p>In addition, SO₂ emissions from all sources&nbsp;have decreased by 32% since 1990 and&nbsp;emissions of NO_x from all sources have&nbsp;decreased by 12% since 1990. Power generating sources continue to close in on the&nbsp;goal of reducing power plant SO₂ emissions&nbsp;from 1980 levels by 50% (to 8.95 million&nbsp;tons) as required by the 1990 Clean Air Act.&nbsp;Power generating sources have also exceed­ed the goal of a two million ton reduction in&nbsp;NO_x emissions from projected 2000 levels&nbsp;as required by the 1990 Clean Air Act.<br></p><p>These emission reductions have contributed&nbsp;to measurable improvements in air quality,&nbsp;reductions in acid deposition, and the beginnings of recovery of acid-sensitive waters in&nbsp;some areas:<br>• SO2 concentrations in the atmosphere (a&nbsp;precursor to fine particles and acid deposition) have decreased since 1990. Average&nbsp;annual SO2 concentrations in the&nbsp;Northeast in 2000–2002 were 40% lower&nbsp;than they were in 1989–1991, concentrations in the mid-Atlantic were 30% lower,&nbsp;concentrations in the Southeast were 35%&nbsp;lower, and concentrations in the Midwest&nbsp;were 45% lower.<br>• Sulfate concentrations in the atmosphere (a major component of fine particles, especially in the East) have&nbsp;decreased since 1990 as well. Average&nbsp;annual sulfate concentrations in the&nbsp;Northeast and Midwest in 2000–2002&nbsp;were approximately 30% lower than they were in&nbsp;1989–1991, and concentrations in the mid-Atlantic and&nbsp;Southeast were 25% lower.<br>• Wet sulfate deposition, a major component of acid rain,&nbsp;has also decreased since 1990. Average annual sulfate&nbsp;deposition in the Northeast in 2000–2002 was 40% lower&nbsp;than it was in 1989–1991, deposition in the mid-Atlantic&nbsp;and Midwest was 35% lower, and deposition in the&nbsp;Southeast was 25% lower.<br>• Wet nitrate deposition has not decreased regionally from&nbsp;historical levels because of the relatively moderate NO_x&nbsp;reduction from power plants and the continuing large contribution (over 50% of total NOx emissions) from other&nbsp;sources of NO_x such as vehicles and nonroad vehicles.<br>• Although visibility has begun to improve in some parts&nbsp;of the U.S., there is still significant impairment of visibility in many national parks and other Class I areas&nbsp;throughout the U.S.<br>• Acid neutralizing capacity is beginning to rise in some&nbsp;surface waters in the Northeast, including lakes in the&nbsp;Adirondack Mountains (see graphic below). This is an&nbsp;indication that recovery from acidification is occurring in&nbsp;those areas.&nbsp;<br data-mce-bogus="1"></p> application/pdf en NOAA National Acid Precipitation Assessment Program Report to Congress: An integrated assessment reports