Spatial and temporal variance in fatty acid and stable isotope signatures across trophic levels in large river systems

Andrea K. Fritts; Brent C. Knights; Toben D. Lafrancois; Lynn A. Bartsch; Jonathan M. Vallazza; Michelle R. Bartsch; William B. Richardson; Byron N. Karns; Sean Bailey; Rebecca M. Kreiling

doi:10.1002/rra.3295

Spatial and temporal variance in fatty acid and stable isotope signatures across trophic levels in large river systems

River Research and Applications

By: Andrea K. Fritts, Brent C. Knights, Toben D. Lafrancois, Lynn A. Bartsch, Jonathan M. Vallazza, Michelle R. Bartsch, William B. Richardson, Byron N. Karns, Sean Bailey, and Rebecca M. Kreiling

https://doi.org/10.1002/rra.3295

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Data Release: USGS data release - Food web fatty acids and stable isotopes in the Upper Mississippi River Basin 2013-2014: Data
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Abstract

Fatty acid and stable isotope signatures allow researchers to better understand food webs, food sources, and trophic relationships. Research in marine and lentic systems has indicated that the variance of these biomarkers can exhibit substantial differences across spatial and temporal scales, but this type of analysis has not been completed for large river systems. Our objectives were to evaluate variance structures for fatty acids and stable isotopes (i.e. δ13C and δ15N) of seston, threeridge mussels, hydropsychid caddisflies, gizzard shad, and bluegill across spatial scales (10s-100s km) in large rivers of the Upper Mississippi River Basin, USA that were sampled annually for two years, and to evaluate the implications of this variance on the design and interpretation of trophic studies. The highest variance for both isotopes was present at the largest spatial scale for all taxa (except seston δ15N) indicating that these isotopic signatures are responding to factors at a larger geographic level rather than being influenced by local-scale alterations. Conversely, the highest variance for fatty acids was present at the smallest spatial scale (i.e. among individuals) for all taxa except caddisflies, indicating that the physiological and metabolic processes that influence fatty acid profiles can differ substantially between individuals at a given site. Our results highlight the need to consider the spatial partitioning of variance during sample design and analysis, as some taxa may not be suitable to assess ecological questions at larger spatial scales.

Suggested Citation

Fritts, A.K., Knights, B.C., Lafrancois, T.D., Bartsch, L., Vallazza, J.M., Bartsch, M.R., Richardson, W.B., Karns, B.N., Bailey, S., Kreiling, R., 2018, Spatial and temporal variance in fatty acid and stable isotope signatures across trophic levels in large river systems: River Research and Applications, v. 34, no. 7, p. 834-843, https://doi.org/10.1002/rra.3295.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Spatial and temporal variance in fatty acid and stable isotope signatures across trophic levels in large river systems
Series title	River Research and Applications
DOI	10.1002/rra.3295
Volume	34
Issue	7
Publication Date	May 30, 2018
Year Published	2018
Language	English
Publisher	John Wiley & Sons Ltd.
Contributing office(s)	Upper Midwest Environmental Sciences Center
Description	10 p.
First page	834
Last page	843