Ecological and biochemical considerations based on stable isotope analysis of blood: A case study from two juvenile lamnid sharks

Photo Credit: © Pelagios Kakunjá

Ecological and biochemical considerations based on stable isotope analysis of blood: A case study from two juvenile lamnid sharks

Elena Tamburin | Sora L. Kim | Fernando R. Elorriaga-Verplancken | Alberto Sánchez- González | Agustín Hernández-Herrera | Mauricio Hoyos-Padilla | José Leonardo Castillo- Geniz | Carlos Javier Godinez-Padilla | Felipe Galván-Magaña

Journal of Experimental Marine Biology and Ecology 574 (2024)

DOI: https://doi.org/10.1016/j.jembe.2024.152005

Abstract

Shortfin mako (Isurus oxyrinchus) and white shark (Carcharodon carcharias) are migratory top predators, worldwide distributed, and keystone species considered Vulnerable by International Union for Conservation of Nature (IUCN). Their ecology is generally well described for adult stages, however habitat preferences and trophic ecology of juvenile phases (i.e., neonates, young of the year [YOY], juveniles) are still poorly described. This knowledge is important to strengthen management and conservation strategies. Additionally, there is also a scarceness of data concerning the impact of tissue biochemical composition on isotopic ratios. This study investigates the influence of the tissue biochemistry on the blood isotopic composition of young shortfin mako and white sharks. Our results provide biological information to understand the ecology and behavior of young shortfin mako and white sharks in a shared nursery area in Baja California (Mexico) using a multi-tissue approach. We compared stable isotopes (SIA) of carbon (δ13C) and nitrogen (δ15N) from different blood fractions (i.e. whole blood, RBCs and plasma) among juvenile shortfin mako and white sharks. The results indicated consistent increase in δ15N values from newborn to larger juvenile stages and includes a first estimation of the incorporation rates in different blood components. Based on our isotopic results, we proposed that the blood biochemistry between life stages influences the isotopic composition of tissues, more than dietary changes in consumed prey. The similar isotopic results of both species by size suggest a resource sharing and common habitat use throughout extended periods, reinforcing the importance of Sebastian Vizcaino Bay as nursery area, and especially as parturition ground for shortfin mako sharks. Finally, this study provides important information for blood sample preservation and represents a first characterization of blood isotopic composition, highlighting the need for further research to better explore how isotopic values can be influenced by different factors (i.e., biochemistry and ecology) and constitutes a baseline for further research.

Keywords:  Juvenile sharks, δ13C and δ15N, Tissue biochemistry, Blood, White shark, Mako shark

Highlights:

  • We evaluated the influence of two blood preservatives, since their effects on isotope values are still poorly investigated.

  • Blood fractions with distinct turn-over rates showed isotopic changes related to biochemical and macromolecular substrates.

  • We provided first opportunistic incorporation rate and TEF estimations for different blood components in lamnid sharks.

  • Our conclusions highlighted the importance of tissue biochemistry on the isotopic composition and final interpretations.

  • Results in multiple tissues, with different turnover rates, clarify early life ecology of shortfin mako and white sharks.

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Seasonal occurrence and individual variability of bull sharks, Carcharhinus leucas, in a marine reserve of the southwestern Gulf of California

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