Mercury in the Atmosphere

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Mercury is an extremely toxic material. It is known to emitted to the atmosphere but what happens to the Mercury after that? How is it removed or processed? Humans pump thousands of tons of vapor from the metallic element mercury into the atmosphere each year, and it can remain suspended for long periods before being changed into a form that is easily removed from the atmosphere. New research shows that the upper troposphere and lower stratosphere work to transform elemental mercury into oxidized mercury, which can easily be deposited into aquatic ecosystems and ultimately enter the food chain.

Mercury is an extremely toxic material. It is known to emitted to the atmosphere but what happens to the Mercury after that? How is it removed or processed? Humans pump thousands of tons of vapor from the metallic element mercury into the atmosphere each year, and it can remain suspended for long periods before being changed into a form that is easily removed from the atmosphere. New research shows that the upper troposphere and lower stratosphere work to transform elemental mercury into oxidized mercury, which can easily be deposited into aquatic ecosystems and ultimately enter the food chain.

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"The upper atmosphere is acting as a chemical reactor to make the mercury more able to be deposited to ecosystems," said Seth Lyman, who did the work as a research assistant professor in science and technology at the University of Washington Bothell.

Lyman, now with Utah State University’s Energy Dynamics Laboratory, is lead author of a paper documenting the research published online Dec. 19 by the journal Nature Geoscience. Daniel Jaffe, a science and technology professor at UW Bothell, is coauthor of the paper.

The findings come from data gathered during research flights in October and November 2010 over North America and Europe by a National Center for Atmospheric Research aircraft.

The campaign used a device built at UW Bothell that can detect both elemental mercury and oxidized mercury in the same air sample, and the device recorded readings every 2.5 minutes. The flights typically are at altitudes of 19,000 to 23,000 feet, well below the confluence of the troposphere and the stratosphere, but several times during the 2010 flights the aircraft encountered streams of air that had descended from the stratosphere or from near it.

The result was the first time that the two mercury forms were measured together in a way that showed that elemental mercury is being transformed into oxidized mercury. The evidence indicated the process occurs in the upper atmosphere.

Exactly how the oxidation takes place is not known with certainty but, once the transformation takes place, the oxidized mercury is quickly removed from the atmosphere, mostly through precipitation or air moving to the surface. After it settles to the surface, the oxidized mercury is transformed by bacteria into methyl mercury, a form that can be taken into the food chain and eventually can result in mercury-contaminated fish.

Some areas, such as the Southwest United States, appear to have specific climate conditions that allow them to receive more oxidized mercury from the upper atmosphere than other areas, Lyman noted.

The atmosphere over the Dead Sea, researchers have found, is laden with oxidized mercury. Some of the highest levels of oxidized mercury ever observed outside of the polar regions exist there.

More mercury is deposited in the Arctic than anywhere else on the planet. Researchers from the Norwegian University of Science and Technology think that one explanation for this may lie in the meteorological conditions in the Arctic spring and summer.

Lyman added that where the mercury settles to the surface can be thousands of miles from where it was emitted. For example, mercury from coal burning in Asia could rise into the atmosphere and circle the globe several times before it is oxidized, then could come to the surface anywhere.

For further information: https://www.washington.edu/news/articles/upper-atmosphere-facilitates-changes-that-let-mercury-enter-food-chain

Photo: http://upload.wikimedia.org/wikipedia/commons/8/86/Mercury-element.jpg