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Web Date: January 20, 2017

Cutting coal has reduced atmospheric mercury in northeastern U.S.

Decreased pollution from coal-fired power plants has led to a decline in the region’s atmospheric mercury since 2000
Department: Science & Technology
News Channels: Analytical SCENE, Environmental SCENE
Keywords: pollution, mercury, coal, power plants
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Closing coal-fired power plants and placing controls on their emissions has helped reduce mercury levels in the air in the northeastern U.S. since 2000.
Credit: Bruce MacQueen/Shutterstock
Photo of Huntley Generating Station (now closed), located along the Niagara River in Tonawanda, N.Y.
 
Closing coal-fired power plants and placing controls on their emissions has helped reduce mercury levels in the air in the northeastern U.S. since 2000.
Credit: Bruce MacQueen/Shutterstock

Mercury concentrations in the air in the northeastern U.S. have fallen within the past two decades as a result of closing and regulating regional coal-fired power plants, a new study shows (Environ. Sci. Technol. Lett. 2016, DOI: 10.1021/acs.estlett.6b00452). The study confirms that regional mercury concentrations are mainly affected by regional changes and are not overwhelmed by global mercury pollution, something researchers were not certain of before the study.

Coal-fired power plants are the largest human-generated source of the neurotoxin mercury to the atmosphere. Some of this mercury—in its oxidized form or bound to particles—reaches waterways, where it builds up in ecosystems and concentrates in fish, threatening environmental and human health. Elemental mercury can stay in the atmosphere for a year or more, so it’s challenging to figure out how much mercury measured in the air in one place comes from local versus global sources—and to evaluate the effectiveness of regulations to lower regional mercury emissions.

To answer this question, Thomas M. Holsen of Clarkson University and his colleagues analyzed atmospheric mercury levels measured in Underhill, Vt., from 1992 to 2014—representing the longest U.S. record of atmospheric mercury data—and in Huntington Forest, N.Y., from 2005 to 2014. They used global and U.S. inventories of mercury and sulfur dioxide emissions from power plants and other sources to determine what influenced these levels.

The team found that mercury in various forms declined between 2 and 8% per year. Prior to 2000, mercury decreases were primarily attributable to decreasing emissions from waste incineration, whereas falling regional power plant emissions were behind decreases since then.

Philip K. Hopke, a study coauthor, says the recent declines in mercury are probably caused mainly by many closures of coal-fired power plants in the region due to economic drivers like the 2008 recession and a shift toward fracking and cheaper natural gas. Placing controls on power plant emissions has also helped, he says.

 
Chemical & Engineering News
ISSN 0009-2347
Copyright © American Chemical Society
Comments
Dennis B. Malpass (Wed Jan 25 14:46:08 EST 2017)
What were the mercury levels(in ppm or ppb) over the period? (The article only indicates that levels were 2 to 8% lower.)

The article states that "mercury emissions were primarily attributable to decreasing emissions from waste incineration" prior to 2000. Why?
John Maziuk (Thu Jan 26 10:59:36 EST 2017)
The origin of the coal and its processing prior to combustion are important to include too.
Andrea J Webb (Thu Jan 26 17:08:31 EST 2017)
Is there such a thing as "clean coal"? and can this be used without the dangers of released mercury or other dangerous emissions?
Thanks!
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