Quantitative fatty acid signature analysis reveals a high level of dietary specialization in killer whales across the North Atlantic

1. Quantifying the diet composition of apex marine predators such as killer whales (Orcinus orca) is critical to assessing their food web impacts. Yet, with few exceptions, the feeding ecology of these apex predators remains poorly understood. 2. Here, we use our newly validated quantitative fatty a...

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Bibliographic Details
Published inThe Journal of animal ecology
Main Authors Remili, Anaïs, Dietz, Rune, Sonne, Christian, Samarra, Filipa I. P, Rikardsen, Audun H, Kettemer, Lisa Elena, Ferguson, Steven H, Watt, Cortney A, Matthews, Cory J. D, Kiszka, Jeremy J, Jourdain, Eve Marie, Borgå, Katrine, Ruus, Anders, Granquist, Sandra M, Rosing-Asvid, Aqqalu, McKinney, Melissa A
Format Journal Article
LanguageNorwegian
Published 2023
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Summary:1. Quantifying the diet composition of apex marine predators such as killer whales (Orcinus orca) is critical to assessing their food web impacts. Yet, with few exceptions, the feeding ecology of these apex predators remains poorly understood. 2. Here, we use our newly validated quantitative fatty acid signature analysis (QFASA) approach on nearly 200 killer whales and over 900 potential prey to model their diets across the 5000 km span of the North Atlantic. 3. Diet estimates show that killer whales mainly consume other whales in the western North Atlantic (Canadian Arctic, Eastern Canada), seals in the mid-North Atlantic (Greenland), and fish in the eastern North Atlantic (Iceland, Faroe Islands, Norway). Nonetheless, diet estimates also varied widely among individuals within most regions. This level of inter-individual feeding variation should be considered for future ecological studies focusing on killer whales in the North Atlantic and other oceans. 4. These estimates reveal remarkable population- and individual-level variation in the trophic ecology of these killer whales, which can help to assess how their predation impacts community and ecosystem dynamics in changing North Atlantic marine ecosystems. 5. This new approach provides researchers with an invaluable tool to study the feeding ecology of oceanic top predators.
Bibliography:OTHER/Canada Foundation for Innovation: 37873
ISSN:0021-8790
1365-2656