Research aims at nitrogen cycle


FILE – As part of the sustainability initiative from the Henry B. Tippie College of Business, this system will allow researchers to grow hydroponic lettuce in effort to find methods to alleviate food insecurity. It is currently located in the Biology Building Greenhouse at the University of Iowa, Jan. 24, 2016. (The Daily Iowan/Anthony Vazquez, file)

By Kasra Zarei

[email protected]

A University of Iowa faculty member and his students are making advancements in sustainability research, ranging from the nitrogen cycle to munitions.

The National Academy of Engineering has identified managing the nitrogen cycle as one of the 14 “grand challenges.” Iowa puts nitrogen into surface waters more than any other place in the planet, making nitrogen management an important local problem.

The work of Craig Just, a UI assistant professor of civil and environmental engineering, said he seeks to obtain a more complete understanding of nitrogen cycling in freshwater and show community members and stakeholders how macro- and microbiology can affect local and downstream water quality.

Just works with freshwater mussels and how they help clean up waterways in Iowa that are heavily polluted with nitrogen.

“Nitrogen should be a resource, but anything in excess can become an environmental burden,” Just said.

Part of his work is based on the scientific belief that mussels may remove some of the nitrogen pollution, because nitrogen grows excess algae, which is food for freshwater mussels.

One of Just’s students, Ph.D. candidate Ellen Black analyzes how microbial communities are influenced by native freshwater mussels.

“Mussels filter water and excrete nitrogen into underlying sediment, thus sequestering biologically active nutrients for microorganisms to consume and possibly remove from river systems,” she said. 

    Black uses next generation sequencing to identify all of the bacteria present in mussel beds, allowing researchers to take an unbiased approach to view the microbial processes influenced by mussels.

“Ultimately, we would like to use our results to advocate for freshwater-mussel restoration to improve ecosystem services of macro- and microbiology nutrient transformation and to sustainably improve water quality,” Black said.

Beyond water-quality improvement, Just and his group do some work with the military regarding newer explosives that are less prone to self-detonation.

Hunter Schroer, a Ph.D. candidate in civil and environmental engineering, leads this arm of Just’s work, researching the biological transformation of the explosives.

Together, Just and Schroer seek to understand the currently unknown environmental fate of the explosives and develop strategies to prevent these explosives from being released into the environment.

“We hope to find organisms that can completely detoxify the explosives by converting them to carbon dioxide and use plants as cost-effective sampling devices to detect the explosives in soil,” Schroer said.

Schroer uses metabolomics, following particular substances and intermediates using instruments, to determine all the things that compounds, such as the ones used in explosives, turn into.

The fate of these substances can then be followed in plants that might be used for remediation.

Schroer’s work takes Just back to his roots; he got his Ph.D. on the same topic with older, traditional explosives.

In their recent study, Just and his team isolated an organism that lives in willow trees that could degrade the parent compound in the munitions of interest and serve as a potential remediation strategy for these newer, insensitive high explosives.

They then proceeded by showing the end-products that the compound could turn in to, a piece of work essential before future application in nature.

“Sometimes, the degradation products might be more toxic than the beginning products,” Just said. “You have to know the pathways and what the products turn into before you go and do these remediation efforts in the field.”

Just and Schroer’s study was the first paper to do work in this area with the willow tree and the organism they discovered.

“Since this specific area of research is such an unchartered territory, we really wanted to get this work out there so then the community can look at it and we can have a conversation about what’s going on,” Just said.

Beyond the scientific and societal effect of his work, Just said, he believes his research should transfer into something useful for Iowa.

“I want to be part of a solution that can be applied to Iowans,” he said. “I want my research to be relevant to Iowa.”

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