Atmospheric Deposition


Photo of Deer Lake Inlet
Photo of Deer Lake Inlet

Emissions resulting from the combustion of fossil fuels are comprised of a wide range of chemical compounds. Some of these compounds, such as water vapor, are relatively harmless, but others may be more damaging to the environment. For example, mercury (Hg), sulfur dioxide (SO2), and oxides of nitrogen (NOX) are also emitted and can travel with weather patterns and be deposited downwind from the emissions source. SO2 and NOX react with other molecules in the atmosphere to form acids. Following the weather patterns, these compounds eventually fall out of the atmosphere as rain, snow, or even dust. The phenomenon is often called “acid rain” but is more accurately described as “acidic deposition.” Similarly, Hg being deposited from the atmosphere, in one form or another, is called “mercury deposition.” Each of these compounds has unique properties and contributes to its own type of environmental degradation.

Acid Deposition and its Effect on the Environment

While the northeastern United States enjoys a relative abundance of freshwater, the quality of our water has degraded over the past century as a consequence of human activities. The deposition of acids is an important cause of this decline. Acid deposition is related to the combustion of fossil fuels, such as gasoline, oil, and coal, which releases sulfur dioxide (SO2) and nitrogen oxides (NOX) into the atmosphere. These gases mix with water vapor in the air and react to form acidic compounds, which fall to earth as rain or snow, sometimes hundreds of miles from their source. Over time, acid deposition, which includes acid rain, snow, and other kinds of acidic inputs, affects lakes and rivers. Many bodies of water across the Northeast have become too acidic to support aquatic life.

Mercury, Human Health, and the Environment

Mercury is a toxic pollutant that accumulates in fish and affects humans and animals that eat fish. Two-thirds of the mercury in the world is released into the environment by human activities, such as electricity production and waste incineration. Much of this mercury is released into the air; once it falls to earth, it cycles through soils and surface waters, entering streams, lakes, and estuaries.

Even small levels of mercury can pose serious health and environmental risks. In 2003, 44 states and American Samoa issued fish consumption advisories because of mercury contamination. From 2002 to 2003, the number of river miles with advisories increased by 60%. According to the U.S. Environmental Protection Agency (EPA), warnings not to eat fish have been issued for nearly one out of every four American rivers and one out of every three lakes.

Last Updated: 10/10/2014
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How To Participate

There is currently one active solicitation:

  • PON 2870 seeks qualified individuals, entities and teams to reanalyze data, datasets and synthesize multiple datasets to gain additional understanding of ecosystem function and response to changing nitrogen, sulfur and mercury depositional loads. Selected projects will be required to publish findings and develop a document (2-4 pages) that translates scientific findings for a broader audience.
    • This is an open-enrollment solicitation. Proposals must be submitted by 12/30/2016.
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Who Can Participate

  • Academic Institutions
  • Environmental Organizations
  • Non-governmental Organizations
  • Engineering/Research Firms
  • Independent Researchers
  • Research Groups
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Who To Contact

Gregory Lampman
Senior Project Manager
518-862-1090, Ext 3372

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