Data from: Integrating isotopic and nutritional niches reveals multiple dimensions of individual diet specialisation in a marine apex predator

Dietary specializations are important determinants of ecological structure, particularly in species with high per-capita trophic influence like marine apex predators. These species are, however, among the most challenging in which to establish spatiotemporally integrated diets. We introduce a novel...

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Bibliographic Details
Main Authors: Grainger, Richard, Raoult, Vincent, Peddemors, Victor, Machovsky-Capuska, Gabriel, Gaston, Troy, Raubenheimer, David
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2022
Subjects:
Carcharodon carcharias
individual specialisation
marine predators
Multidimensional nutritional niche framework
nutritional ecology
Stable isotopes
Tooth replacement
sulfur stable isotopes
sulfur isotopes
Megaptera novaeangliae
Delphinus delphis
Tursiops aduncus
Sphyrna zygaena
Myliobatis tenuicaudatus
Rhinoptera neglecta
Urolophus sp
Hypnos monopterygius
Arripis trutta
Pseudocaranx georgianus
Achoerodus viridis
Kathetostoma laeve
Platycephalus caeruleopunctatus
Mugil cephalus
Sepia rozella
Sepioteuthis australis
Nitrogen stable isotopes
carbon stable isotopes
Carbon and nitrogen stable isotopes
Online Access:https://doi.org/10.5061/dryad.h44j0zppd
Description
Summary:Dietary specializations are important determinants of ecological structure, particularly in species with high per-capita trophic influence like marine apex predators. These species are, however, among the most challenging in which to establish spatiotemporally integrated diets. We introduce a novel integration of stable isotopes with a multidimensional nutritional niche framework that addresses the challenges of establishing spatiotemporally integrated nutritional niches in wild populations, and apply the framework to explore individual diet specialization in a marine apex predator, the white shark ( Carcharodon carcharias ). Sequential tooth files were sampled from juvenile white sharks to establish individual isotopic (δ-space; δ 13 C, δ 15 N, δ 34 S) niche specialization. Bayesian mixing models were then used to reveal individual-level prey (p-space) specialization, and further combined with nutritional geometry models to quantify the nutritional (N-space) dimensions of individual specialization and their relationships to prey use. Isotopic and mixing model analyses indicated juvenile white sharks as individual specialists within a broader, generalist, population niche. Individual sharks differed in their consumption of several important mesopredator species, which suggested among-individual variance in trophic roles in either pelagic or benthic food webs. However, variation in nutrient intakes was small and not consistently correlated with differences in prey use, suggesting white sharks as nutritional specialists and that individuals could use functionally and nutritionally different prey as complementary means to achieve a common nutritional goal. We identify how degrees of individual specialisation can differ between niche spaces (δ-, p- or N-space), the physiological and ecological implications of this, and argue that integrating nutrition can provide stronger, mechanistic links between diet specialisation and its intrinsic (fitness/performance) and extrinsic (ecological) outcomes. Our time-integrated ...

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