Drivers of nitrogen transfer in stream food webs across continents

Beth C. Norman, Matt R. Whiles, Sarah M. Collins, Alexander S. Flecker, Steve K. Hamilton, Sherri L. Johnson, Emma J. Rosi, Linda R. Ashkenas, William B. Bowden, Chelsea L. Crenshaw, Todd Crowl, Walter K. Dodds, Robert O. Hall, Rana El-Sabaawi, Natalie A. Griffiths, Eugènia Marti, William H. McDowell, Scot D. Peterson, Heidi M. Rantala, Tenna RiisKevin S. Simon, Jennifer L. Tank, Steven A. Thomas, Daniel von Schiller, Jackson R. Webster

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

Studies of trophic-level material and energy transfers are central to ecology. The use of isotopic tracers has now made it possible to measure trophic transfer efficiencies of important nutrients and to better understand how these materials move through food webs. We analyzed data from thirteen 15N-ammonium tracer addition experiments to quantify N transfer from basal resources to animals in headwater streams with varying physical, chemical, and biological features. N transfer efficiencies from primary uptake compartments (PUCs; heterotrophic microorganisms and primary producers) to primary consumers was lower (mean 11.5%, range <1% to 43%) than N transfer efficiencies from primary consumers to predators (mean 80%, range 5% to >100%). Total N transferred (as a rate) was greater in streams with open compared to closed canopies and overall N transfer efficiency generally followed a similar pattern, although was not statistically significant. We used principal component analysis to condense a suite of site characteristics into two environmental components. Total N uptake rates among trophic levels were best predicted by the component that was correlated with latitude, DIN:SRP, GPP:ER, and percent canopy cover. N transfer efficiency did not respond consistently to environmental variables. Our results suggest that canopy cover influences N movement through stream food webs because light availability and primary production facilitate N transfer to higher trophic levels.

Original languageEnglish
Pages (from-to)3044-3055
Number of pages12
JournalEcology
Volume98
Issue number12
DOIs
StatePublished - Dec 2017

Keywords

  • N
  • food chain efficiency
  • food webs
  • isotope tracer experiment
  • nitrogen
  • stream

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