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Isotopic niche overlap between sympatric Australian snubfin and humpback dolphins

Guido J. Parra, Zachary Wojtkowiak, Katharina J. Peters, Daniele Cagnazzi

2022Ecology and Evolution13 citationsDOIOpen Access PDF

Abstract

Abstract Ecological niche theory predicts the coexistence of closely related species is promoted by resource partitioning in space and time. Australian snubfin ( Orcaella heinsohni ) and humpback ( Sousa sahulensis ) dolphins live in sympatry throughout most of their range in northern Australian waters. We compared stable isotope ratios of carbon (δ 13 C) and nitrogen (δ 15 N) in their skin to investigate resource partitioning between these ecologically similar species. Skin samples were collected from live Australian snubfin ( n = 31) and humpback dolphins ( n = 23) along the east coast of Queensland in 2014–2015. Both species had similar δ 13 C and δ 15 N values and high (>50%) isotopic niche space overlap, suggesting that they feed at similar trophic levels, have substantial dietary overlap, and rely on similar basal food resources. Despite similarities, snubfin dolphins were more likely to have a larger δ 15 N value than humpback dolphins, indicating they may forage on a wider diversity of prey. Humpback dolphins were more likely to have a larger δ 13 C range suggesting they may forage on a wider range of habitats. Overall, results suggest that subtle differences in habitat use and prey selection are likely the principal resource partitioning mechanisms enabling the coexistence of Australian snubfin and humpback dolphins.

Topics & Concepts

SympatryEcologyRange (aeronautics)δ13CBiologyNiche differentiationSympatric speciationTrophic levelNicheHabitatδ15NForagingMesopredator release hypothesisApex predatorStable isotope ratioQuantum mechanicsMaterials sciencePhysicsComposite materialMarine animal studies overviewIsotope Analysis in EcologyAvian ecology and behavior
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