Overview
Actions by the U.S. Environmental Protection Agency and its state partners have led to significant reductions in
one of the major sources of pollution impacting the Chesapeake Bay watershed and tidal Bay: the atmospheric
deposition of nitrogen oxides, or NOx.
The steady decline in nitrogen pollution that is carried by winds and falls to the Bay's waters and lands has been
a key factor in the overall progress to date in meeting water quality goals of the historic Chesapeake Bay Total
Maximum Daily Load (Bay TMDL).
The Importance of Clean Air
to Clean Water in the
Chesapeake Bay
In the Bay TMDL, EPA committed to reducing nitrogen deposition to the Bay and its surrounding waters by a
total of 3.7 million pounds between 2009 and 2025, the year all practices are to be in place to meet the Bay
TMDL goals. As of 2013, through actions under the Clean Air Act, EPA and its partners have achieved
reductions of an estimated 2.5 million pounds, putting EPA on track to meet its commitment.
Clean Air Act regulations have also led to sharp reductions in nitrogen that washes into the Bay after falling on
watershed lands and upstream waters.
Nitrate ion wet deposition, 1986
Nitrate ion wet deposition, 2013
Source: National Atmospheric Deposition Program (NRSP-3) 2007 NADP Program Office, Illinois State Water Survey. 2204 Griffith Dr. Champaign. IL 61820
Cleaner Air Means Cleaner Water
The Clean Air Act has helped Americans breathe easier and live healthier, reducing illnesses and premature
deaths and contributing to a stronger economy and better quality of life. At the same time, the Act has helped
protect qui- waters by reducing NOx pollution emitted by automobiles, trucks and various non-road vehicles,
and industrial sources such as power plants, industrial boilers, cement kilns and turbines.
Air pollution contributes about one third of the total nitrogen loads delivered to the lands and tidal waters of
the Bay watershed. The bulk of that nitrogen (75 percent of the NOx) is generated by sources within the Bay's
"airshed," which at 570.000 square miles is nine times the size of the Bay watershed.
Too much nitrogen (and phosphorus) in the water causes algae to grow faster than ecosystems can handle.
Large growths of algae, called algal blooms, can severely reduce or eliminate oxygen in the water that fish and
other aquatic life need to survive.
For more information on air deposition and its impact on the Chesapeake Bay, visit
http://www.epa. gov/reg3wapd/pdffodf chesbav/FmalBavTMDL/CBavFinalTMDLbection4 raial.pdf (Section 4.6.2)
And for tips on what you can do to reduce air pollution, visit httoJ fepa gov/oaqpsOO 1 /peg caa/reduce.html January 2015
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The Importance of Clean Air to Clean Water in the Chesapeake Bay
Actions Produce Results
EPA actions to implement the Clean Air Act have led to shaip reductions in NOx emissions. The results are
reflected in:
• Widespread achievement of ah quality standards with far fewer ozone action days. NOx, in the presence
of volatile organic compounds and sunlight, can lead to formation of ground-level ozone (smog).
• Long-term decreasing trends in atmospheric nitrogen deposition across the Bay watershed.
• Declining nitrogen concentrations in most headwater streams and the Bay watershed's largest rivers.
The Chesapeake Bay Program offers an extensive look at progress in reducing airborne nitrogen pollution.
The Program's decision support tools show that nitrogen hi NOx form that landed on the Bay watershed as a
result of NOx emissions dropped by more than half
from 1986 to 2013, 447 million pounds to 190 million
pounds. (A large portion of the nitrogen falling to
land is absorbed by terrestrial plants or remitted back
to the atmosphere). Duiing the same period, the
amount of nitrogen as NOx falling directly on the Bay
and its surrounding waters fell from 19 million
pounds a year to 9 million, according to the estimates.
Clean Air Rules
Clean Ah Act actions that have helped or will help reduce NOx in the Chesapeake Bay watershed, include:
• Since 1995, implementation of the Acid Ram Program, which focuses on reducing pollutants such as
NOx. has not only improved previously acidified water bodies so that they can once agahi support fish
life, but has also reduced ground level ozone and fine particulate matter, such as nitrates.
• Implementation of rules that aim to reduce air pollution emissions in one state from impacting the air
quality in another. The NOx Budget Trading Program (NBP) was a 2003 market-based cap and trade
program created to reduce emissions of NOx from power plants and other large combustion sources in the
eastern United States. The NBP was followed by the Clean Air Interstate Rule (CADR.) and the
Cross-State Air Pollution Rule (CSAPR), calling for further reductions.
• The Tier 2 On-Road Light Duty final rule, issued in 1999,
set more str ingent NOx standards for tailpipe emissions or
all passenger vehicles, including sport utility vehicles,
minivans, vans and pick-up trucks beginning in 2004.
• The Tier 3 Light-Duty Vehicle Emissions and Fuel Standards
final rale, issued in April 2014, will implement new vehicle
emissions standards and lower the sulfur content of gasoline
beginning in 2017 and will result in significant reductions in
pollutants such as NOx.
• Hie EPA and the National Highway Traffic Safety
Administration issued a joint rale in September 2011 for
heavy duty trucks beginning with model year 2014 that will
not only improve fuel economy and reduce greenhouse gas
emissions but will also reduce NOx.
EPA and the states are continuing to take steps to reduce emissions that pollute the air - and water.
For more information on air deposition and its impact on the Chesapeake Bay. visit
http://www.eoa gov/reg3wapd odE'ndf chesbav'TFinalBavTMDL CBavFinalTMDLSection4 final pdf (Section 4.6.2)
And for tips on what you can do to reduce air pollution, visit http://eDa-gov/oacms001/peg caa/redure html January 2015
Furthest outline shows
the Chesapeake Bay
airshed, the source of
75% of the airborne
NOx impacting die
Bay watershed. The
other 25% comes
from sources even
farther away.
Annual NOx Power Plant Emissions 1990-2014
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