4.3 Article

Using stable isotope data to quantify niche overlap and diets of muskellunge, northern pike and walleye in a deep Minnesota lake

Journal

ECOLOGY OF FRESHWATER FISH
Volume 31, Issue 1, Pages 60-71

Publisher

WILEY
DOI: 10.1111/eff.12608

Keywords

cisco; interspecific competition; isotopic niche; stable isotope mixing models; top predators; trophic position

Funding

  1. Minnesota Environment and Natural Resources Trust Fund
  2. University of St. Thomas

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Research indicates that there is little niche overlap between muskellunge and northern pike, while walleye overlaps more extensively with both muskellunge and northern pike. Muskellunge primarily feed on cisco, walleye mainly consume non-cisco prey fish, and northern pike have a diet dominated by non-cisco prey fish and invertebrates.
Muskellunge (Esox masquinongy Mitchill), northern pike (Esox lucius L.) and walleye (Sander vitreus Mitchill) often coexist in lake communities, yet uncertainty exists about the potential for interspecific competition among these top predators. Stable isotope data were used to assess niche overlap and diets of these predators in Elk Lake (Minnesota, U.S.A). delta C-13 indicated primary production sources (e.g. pelagic v. littoral) and delta N-15 indicated trophic position; the bivariate distribution of these isotopes defined the species' isotopic niche. Niche overlap probabilities were calculated and stable isotope mixing models were used to quantify diet proportions. Muskellunge and northern pike niches overlapped little (<10%), while walleye overlapped muskellunge (15%-60%) and northern pike (33%-53%) more extensively. Muskellunge diets focused (50%) on cisco (Coregonus artedi Lesueur), walleye primarily assimilated non-cisco prey fish (80%), and northern pike diets were dominated by non-cisco prey fish (45%) and invertebrates (40%). The presence of a cisco population and the flexibility of northern pike to use invertebrate resources may decrease potential competition among these predators. However, cisco are threatened by climate change and eutrophication, and our results suggest that extirpation of cisco may cause major changes in potential competitive interactions among these top predators. Moreover, cisco were unique among prey species in their ability to exploit pelagic energy, such that loss of cisco will likely alter energy flow in lake food webs where they currently exist.

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