Rescaling the trophic structure of marine food webs |
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Authors: | Nigel E Hussey M Aaron MacNeil Bailey C McMeans Jill A Olin Sheldon FJ Dudley Geremy Cliff Sabine P Wintner Sean T Fennessy Aaron T Fisk |
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Institution: | 1. Great Lakes Institute for Environmental Research, University of Windsor, , Windsor, ON N9B 3P4, Canada;2. Australian Institute of Marine Science, , Townsville MC, Townsville, QLD 4810 Australia;3. KwaZulu‐Natal Sharks Board, , KwaZulu‐Natal, South Africa;4. Biomedical Resource Unit, University of KwaZulu‐Natal, , Durban 4056, South Africa;5. Oceanographic Research Institute, , PO Box 10712 Marine Parade, Durban 4056, South Africa |
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Abstract: | Measures of trophic position (TP) are critical for understanding food web interactions and human‐mediated ecosystem disturbance. Nitrogen stable isotopes (δ15N) provide a powerful tool to estimate TP but are limited by a pragmatic assumption that isotope discrimination is constant (change in δ15N between predator and prey, Δ15N = 3.4‰), resulting in an additive framework that omits known Δ15N variation. Through meta‐analysis, we determine narrowing discrimination from an empirical linear relationship between experimental Δ15N and δ15N values of prey consumed. The resulting scaled Δ15N framework estimated reliable TPs of zooplanktivores to tertiary piscivores congruent with known feeding relationships that radically alters the conventional structure of marine food webs. Apex predator TP estimates were markedly higher than currently assumed by whole‐ecosystem models, indicating perceived food webs have been truncated and species‐interactions over simplified. The scaled Δ15N framework will greatly improve the accuracy of trophic estimates widely used in ecosystem‐based management. |
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Keywords: | Discrimination fish food webs marine shark stable isotopes trophic level trophic position |
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