Airborne nitrogen contributes pollution to U.S. estuaries

Dec. 16, 2000
Nitrogen in rain and airborne particles contributes as much as 15 to 35 percent of the nitrogen in the coastal streams that flow into U.S. estuaries, according to a new study from the U.S. Geological Survey, the National Oceanographic and Atmospheric Administration (NOAA), and the Blackland Research Center at Texas A&M University.

Dec. 15, 2000—Nitrogen in rain and airborne particles contributes as much as 15 to 35 percent of the nitrogen in the coastal streams that flow into U.S. estuaries, according to a new study from the U.S. Geological Survey, the National Oceanographic and Atmospheric Administration (NOAA), and the Blackland Research Center at Texas A&M University.

The study, published by the American Geophysical Union (AGU) and to be released December 15, 2000, sheds new light on the role of the atmosphere as a source of pollutants to downstream estuaries.

Nutrients, especially nitrogen, are needed to sustain the productivity of estuaries, but too much nitrogen causes the excessive growth of algae, bacteria and microscopic water animals known as zooplankton, depriving fish and plants of much-needed oxygen.

A recent assessment by NOAA identified such problems in many U.S. estuaries especially in those along the Gulf of Mexico and Mid-Atlantic coasts. Until now, scientists have had incomplete information on the sources of nitrogen entering these estuaries.

Beyond nitrogen contributions from agricultural and wastewater sources, it was unclear how much nitrogen came from other sources like cars, trucks and power plants because no comprehensive national studies had been done to quantify those contributions. Moreover, little was known about the amounts of airborne nitrogen that make their way to coastal streams and estuaries once the nitrogen is deposited in watersheds.

"This study provides important new information about how coastal watersheds process atmospheric nitrogen and about the amounts of atmospheric nitrogen that enter estuaries," said Richard Alexander, a U.S.GS hydrologist and expert on nutrients who co-authored the study.

"There are important scientific and policy questions about the role of atmospheric nitrogen in causing coastal water-quality problems. This information can help local resource managers determine sources of nitrogen entering estuaries. This improved understanding of the links between air deposition of nitrogen and coastal water quality also leads to a better scientific basis for steps to minimize coastal pollution sources."

This national study of the watersheds that drain to 40 major U.S. estuaries reported the highest atmospheric contributions—a quarter to about a third of the nitrogen in streams—along the northeastern and Mid-Atlantic coasts, including streams flowing to the Long Island Sound and Chesapeake Bay.

Atmospheric contributions were also nearly this large in many streams along the Louisiana Gulf coast, which corresponded to the locally high levels of atmospheric deposition of nitrogen in this region. A U.S.GS study published earlier this year reported that the atmosphere accounts for a similar percentage of the nitrogen (nearly 20 percent) in the waters of the Mississippi River that flow into the Gulf of Mexico.

The new national study also confirmed that estuaries receive much of their nitrogen from non-atmospheric sources, including farms, pastureland, and wastewater treatment plants. Agricultural runoff contributed the largest share, more than one-third in most of the coastal watersheds studied. The contributions from municipal and industrial wastewater are similar to those from the atmosphere in many watersheds, but represent the largest share of nitrogen—more than a third—in several densely populated watersheds along the North Atlantic and Gulf coasts.

The results of the joint U.S.GS/NOAA/BRC study by scientists Richard Alexander, Richard Smith, Gregory Schwarz, Stephen Preston, John Brakebill, Raghavan Srinivasan, and Percy Pacheco, entitled "Atmospheric Nitrogen Flux From the Watersheds of Major Estuaries of the United States: An Application of the SPARROW Watershed Model", was part of a larger collaborative effort convened by NOAA, including scientists from more than 15 federal, state, and academic institutions, to quantify atmospheric nitrogen inputs to the watersheds and water surfaces of U.S. estuaries.

The results of the entire investigation appear in the American Geophysical Union (AGU) Monograph 57, entitled "Nitrogen Loading in Coastal Water Bodies: An Atmospheric Perspective" and edited by Richard Valigura, Richard Alexander, Mark Castro, Tilden Meyers, Hans Paerl, Paul Stacey, and R. Eugene Turner. The Monograph will be released to the public at the AGU Fall Meeting, December 15-19 in San Francisco, California.

The eight chapters of the Monograph include discussions of the ecological effects of atmospheric inputs to estuaries, the chemical components of nitrogen deposition to estuaries and their watersheds, alternative methods for determining the watershed contributions of atmospheric nitrogen, and an evaluation of the accuracy of the various methodologies.

The larger study underscores the importance of the atmosphere as a pathway for nitrogen, based on its finding that, in about a third of the estuaries studied, the amounts of airborne nitrogen deposited directly onto the water surface are as large or nearly as large as the amounts of nitrogen carried to estuaries by streams.

For more information:
Abstract and SPARROW links: water.usgs.gov/nawqa/sparrow/coast/agu_sparrow.html

NOAA Study "National Estuarine Eutrophication Assessment: Effects of Nutrient Enrichment in the Nation's Estuaries": www.publicaffairs.noaa.gov/releases2000/jun00/noaa00055.html

U.S.GS Study "Effect of stream channel size on the delivery of nitrogen to the Gulf of Mexico": www.usgs.gov/public/press/public_affairs/press_releases/pr1162m.html

As the nation's largest water, earth and biological science and civilian mapping agency the U.S.GS works in cooperation with more than 2000 organizations across the country to provide reliable, impartial, scientific information to resource managers, planners, and other customers.

This information is gathered in every state by U.S.GS scientists to minimize the loss of life and property from natural disasters, contribute to sound economic and physical development of the nation's natural resources, and enhance the quality of life by monitoring water, biological, energy, and mineral resources.

In-depth information about U.S.GS programs may be found on the U.S.GS home page at http://www.usgs.gov.

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