Evaluating potential effects of bigheaded carps on fatty acid profiles of multiple trophic levels in large rivers of the Midwest, USA

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

doi:10.1016/j.fooweb.2018.e00095

Evaluating potential effects of bigheaded carps on fatty acid profiles of multiple trophic levels in large rivers of the Midwest, USA

Food Webs

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

https://doi.org/10.1016/j.fooweb.2018.e00095

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Abstract

Recent work indicates that the establishment of bigheaded carps (Hypophthalmichthys spp.) in the United States has led to a reduction in condition of native planktivores and may detrimentally affect other trophic levels by altering the base of aquatic food webs. We used fatty acids to evaluate potential effects of bigheaded carps on taxa from multiple trophic levels in the Upper Mississippi, Illinois, and St. Croix rivers. Seston fatty acid concentrations were highest in the Illinois River lotic sites and connected backwaters and were positively associated with omega-3 highly unsaturated fatty acids, indicating that these locations had abundant, high-quality basal food resources despite hosting the greatest bigheaded carp densities. Fatty acid profiles of threeridge freshwater mussels tracked the fatty acid values in the seston and were not influenced by bigheaded carp abundances. Hydropsychid caddisflies and bluegill did not differ significantly in total fatty acids or percent lipid among spatial locations, indicating that omnivorous species may be relatively unaffected by bigheaded carps. Gizzard shad, however, exhibited the lowest fatty acid concentrations in the locations with the highest relative bigheaded carp densities, and multivariate models identified bigheaded carp densities as the predictive factor that explained the greatest amount of variability. Zooplankton abundance has been greatly reduced after bigheaded carps establishment in the Illinois River, which may explain the disconnect between the gizzard shad fatty acids and the plentiful, high-quality phytoplankton in that river. Our data provide additional evidence that bigheaded carps are negatively affecting native planktivores such as gizzard shad.

Suggested Citation

Fritts, A.K., Knights, B.C., LaFrancois, T., Vallazza, J.M., Bartsch, L., Bartsch, M.R., Richardson, W.B., Bailey, S., Kreiling, R., Karns, B., 2019, Evaluating potential effects of bigheaded carps on fatty acid profiles of multiple trophic levels in large rivers of the Midwest, USA: Food Webs, v. 16, e00095, https://doi.org/10.1016/j.fooweb.2018.e00095.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Evaluating potential effects of bigheaded carps on fatty acid profiles of multiple trophic levels in large rivers of the Midwest, USA
Series title	Food Webs
DOI	10.1016/j.fooweb.2018.e00095
Volume	16
Year Published	2019
Language	English
Publisher	Elsevier
Contributing office(s)	Upper Midwest Environmental Sciences Center
Description	e00095
Country	United States
State	Minnesota, Iowa, Missouri, Wisconsin, Illinois, Michigan, Indiana, Ohio, North Dakota, South Dakota, Nebraska, Kansas