Journal Article
mSystems, vol. 5, iss. 3, 2020
Authors
Christopher R. Anderton, Jennifer M. Mobberley, Jessica K. Cole, Jamie R. Nuñez, Robert Starke, Amy A. Boaro, Yasemin Yesiltepe, Beau R. Morton, Alexandra B. Cory, Hayley C. Cardamone, Kirsten S. Hofmockel, Mary S. Lipton, James J. Moran, Ryan S. Renslow, James K. Fredrickson, Stephen R. Lindemann, Steven J. Hallam
Abstract
Anthropogenic inputs of nitrogen into aquatic ecosystems, and especially those of agricultural origin, involve a mix of chemical species. Although it is well-known in general that nitrogen eutrophication markedly influences the metabolism of aquatic phototrophic communities, relatively little is known regarding whether the specific chemical form of nitrogen inputs matter. Our data suggest that the nitrogen form alters the rate of nitrogen uptake significantly, whereas corresponding alterations in carbon uptake were minor. However, differences imposed by uptake of divergent nitrogen forms may result in alterations among phototroph-heterotroph interactions that rewire community metabolism. Furthermore, our data hint that availability of other nutrients (i.e., iron) might mediate the linkage between carbon and nitrogen cycling in these communities. Taken together, our data suggest that different nitrogen forms should be examined for divergent impacts on phototrophic communities in fluvial systems and that these anthropogenic nitrogen inputs may significantly differ in their ultimate biogeochemical impacts.
