UGA researchers receive $727,000 NSF grant to study organism on Georgia’s coast

Hollibaugh, James-v.env.

February 10, 2014

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    James Hollibaugh is the Distinguished Research Professor of Marine Sciences at UGA.

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Athens, Ga. - Every year around the Fourth of July, populations of a single-celled organism called Thaumarchaeota explode in the coastal waters throughout the Southeastern United States, increasing more than 1,000 times higher than normal. It's a puzzling event that affects nitrogen availability and the fertility of coastal waters and may contribute to excess production of nitrous oxide, an important greenhouse gas.

Now, University of Georgia researchers have received a $727,000 grant from the National Science Foundation to determine why this happens, if it is limited to the Southeast and what impact these mid-summer blooms have on the environment.

"This is one of the most abundant organisms in the world, but we know very little about it," said James Hollibaugh, principal investigator for the project and Distinguished Research Professor of Marine Sciences. "We do know that it plays an important role in the Earth's nitrogen cycle, and that's one of the reasons we're so interested in it."

Nitrogen is an important "fertilizer" element, essential for the growth of all living things. Nitrogen normally cycles between living biomass and dissolved nutrients. When plant and animal wastes decompose, the nitrogen they contain is released to the environment, where it can be recycled by plants to support additional growth. People and animals eventually eat the plants, and their waste re-enters the environment, beginning the cycle again.

However, excess nitrogen can leak into rivers, lakes and oceans as runoff from lawns or farmland, as sewage, or as a byproduct of automobile use and certain industrial processes.

"Fertilizer in the water works just like fertilizer on land," Hollibaugh said. "It accelerates the growth of plants."

This surplus nitrogen can lead to over-fertilization of receiving waters and excessive growth of plants that eventually sink and rot, consuming the oxygen in the water around them. They may also produce toxins that harm other marine life. The Thaumarchaeota bloom helps rid the environment of this excess nitrogen by breaking the cycle and initiating the process of converting fertilizer to nitrogen gas.

As a byproduct of this activity, Thaumarchaeota may also cause excessive production of nitrous oxide, a powerful greenhouse gas that traps heat in the atmosphere and is thought to play a role in the destruction of the protective portion of the stratosphere commonly called the ozone layer.

"The well-defined blooms we see on the Georgia coast offer a great opportunity to examine Thaumarchaeota and nitrous oxide production," Hollibaugh said.

The impact of 1 pound of nitrous oxide on warming the atmosphere is more than 300 times that of 1 pound of carbon dioxide, according to the U.S. Environmental Protection Agency, and nitrous oxide molecules stay in the atmosphere for an average of 120 years.

Researchers will take numerous measurements along Georgia's coast near Sapelo Island to track Thaumarchaeota populations and their influence on the nitrogen cycle, including nitrous oxide production, and they will conduct genetic analyses and experiments to determine processes within the organism that may contribute to these population explosions.

This also will be an excellent training opportunity for undergraduate, graduate and post-doctoral students, Hollibaugh said. Research teams will continue the tradition of outreach to K-12 teachers through the Georgia Coastal Ecosystems LTER Schoolyard program that Sapelo researchers have maintained for years.

For more information about UGA's research and outreach efforts on Georgia's coast, see the UGA Marine Institute, the Skidaway Institute of Oceanography, the UGA Department of Marine Sciences and the Georgia Coastal Ecosystems LTER websites.

 

Filed under: Environment, Ecology

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