Title
Energetic consequences of resource use diversity in a marine carnivore
Author(s)
Shipley, Oliver N.; Manlick, Philip J.; Newton, Alisa L.; Matich, Philip; Camhi, Merry; Cerrato, Robert M.; Frisk, Michael G.; Henkes, Gregory A.; LaBelle, Jake S.; Nye, Janet A.; Walters, Hans; Newsome, Seth D.; Olin, Jill A.
Published
2022
Publisher
Oecologia
Abstract
Understanding how intraspecific variation in the use of prey resources impacts energy metabolism has strong implications for predicting long-term fitness and is critical for predicting population-to-community level responses to environmental change. Here, we examine the energetic consequences of variable prey resource use in a widely distributed marine carnivore, juvenile sand tiger sharks (Carcharias taurus). We used carbon and nitrogen isotope analysis to identify three primary prey resource pools—demersal omnivores, pelagic forage, and benthic detritivores and estimated the proportional assimilation of each resource using Bayesian mixing models. We then quantified how the utilization of these resource pools impacted the concentrations of six plasma lipids and how this varied by ontogeny. Sharks exhibited variable reliance on two of three predominant prey resource pools: demersal omnivores and pelagic forage. Resource use variation was a strong predictor of energetic condition, whereby individuals more reliant upon pelagic forage exhibited higher blood plasma concentrations of very low-density lipoproteins, cholesterol, and triglycerides. These findings underscore how intraspecific variation in resource use may impact the energy metabolism of animals, and more broadly, that natural and anthropogenically driven fluctuations in prey resources could have longer term energetic consequences.
Keywords
Ecophysiology; Stable isotope analysis; Bayesian mixing model; Nutritional condition; Elasmobranch
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PUB35769