ISU Magazine

Volume 42 | Number 2 | Spring 2012

Brush with Greatness

Benny the Bengal slaps a shot prior to the Idaho Steelheads Brush with Greatness hockey game that Idaho State University and Delta Dental of Idaho sponsored.

ISU Photographic Services/Bethany Baker

Studying Nitrogen Release

Spring 2012 Issue | By Andrew Taylor


How a change in Nitrogen-Release levels can impact the Environment


This is the type of drilling rig that Professor Bruce Finney and geosciences post-doctoral researcher Mark Shapley use to obtain sediment core samples for their nitrogen emission studies.
Photo by ISU Photographic Services/Susan Duncan

Two Idaho State University scientists - biological and geosciences professor Bruce Finney and geosciences post-doctoral researcher Mark Shapley - are among a team of 19 researchers who have documented the signature of increased human nitrogen emissions across the Northern Hemisphere in study that has been published in the prestigious journal Science.

Plenty has been written about the increase of carbon released in the environment by humans, but this is a major study documenting the release of nitrogen, which also has the potential for dramatic environmental effects, into remote watersheds in Idaho, the western United States, Canada, Alaska, Greenland and Norway.

The lead author on the study "A Coherent Signature of Anthropogenic Nitrogen Deposition to Watersheds of the Northern Hemisphere" was Gordon Holtgrieve, from the University of Washington School of Aquatic and Fishery Sciences. He worked with colleagues from around the globe on the study published Dec. 16.

"Unlike carbon, nitrogen is generally distributed more closely to its human-caused sources, but we found evidence of its distribution in places far away from its sources," Finney said. "The release of nitrogen from human sources really starts to pick up about 100 years ago (this paper analyzes nitrogen sources going back 400 years) and it has increased exponentially to the present."

Finney and Shapley have been taking sediment core samples from remotes lakes in the Pacific Northwest and Alaska. They extract sediment samples from lakebed mud, and — similar to analyzing tree rings — interpret layers of sediment using a sophisticated instrument called a mass spectrometer.

The researchers measured recent changes in the ratio of nitrogen isotopes, which are distinct forms of the element, which identifies input from human activities.

"Nitrogen coming from humans has a signature that is different from nitrogen from other sources," notes Finney.

The new study appearing in Science is an expansion of an earlier study of lakes in the Pacific Northwest and Alaska that was co-led by Finney and three other principal investigators who are authors on this study.

"This is probably the first good evidence that watersheds in these remote areas of the world are having their nitrogen budgets changed in ways we can detect over the last century," Shapley said. "Changes in nitrogen levels really tend to have widespread and significant changes on the ecosystems supported by those lakes.

"Organisms in these lakes," continued Shapley, "are sensitive to nitrogen in those watersheds. Human loading of nitrogen in the atmosphere is having a hemispheric, and possibly global impact. It's possible that widespread changes in the ecosystems may not be far behind."

Humans release nitrogen into the environment through a wide variety of means, including burning fossil-based and other fuels and applying fertilizers.

"The studies on nitrogen have implications for carbon cycles in the environment as well," Finney said. "People studying the global carbon cycle know it does not work separately from nitrogen. You have to think of the cycles of both nitrogen and carbon to understand how they will change in the future."

Other co-authors are Daniel Schindler, Peter Lisi and Lauren Rogers with the University of Washington, Alexander Wolfe with the University of Alberta, William Hobbs with Science Museum of Minnesota, Eric Ward with National Marine Fisheries Service, Lynda Bunting and Peter Leavitt with University of Regina; Guangjie Chen with McGill University and Yunnan Normal University, Irene Gregory-Eaves with McGill University, Sofia Holmgren with Lund University, Mark Lisac and Patrick Walsh with U.S. Fish and Wildlife Service, Koren Nydick with Mountain Studies Institute, Colorado, Jasmine Saros with University of Maine, and Daniel Selbie with Fisheries and Oceans Canada.

Funding came from the Gordon and Betty Moore Foundation, U.S. Fish and Wildlife Service, Alberta Water Research Institute, Natural Sciences and Engineering Research Council of Canada, the National Science Foundation, and Canada Foundation for Innovation.

Science is produced by the American Association for the Advancement of Science (AAAS).