AI Article Synopsis
- The study examines energy metabolism in four shark species (blacktip, bull, nurse, and tiger sharks) using non-lethal biopsy sampling to analyze plasma triglycerides, free fatty acids, and cholesterol.
- Plasma metabolite levels varied by species, season, year, and shark size, with distinct patterns: less active sharks had higher triglycerides, while more active ones had higher free fatty acids.
- The research highlights seasonal peaks in metabolite ratios, particularly in summer, and stresses the need to consider individual and temporal differences in future studies on shark nutritional health.
Article Abstract
Evaluating how predators metabolize energy is increasingly useful for conservation physiology, as it can provide information on their current nutritional condition. However, obtaining metabolic information from mobile marine predators is inherently challenging owing to their relative rarity, cryptic nature and often wide-ranging underwater movements. Here, we investigate aspects of energy metabolism in four free-ranging shark species ( = 281; blacktip, bull, nurse, and tiger) by measuring three metabolic parameters [plasma triglycerides (TAG), free fatty acids (FFA) and cholesterol (CHOL)] via non-lethal biopsy sampling. Plasma TAG, FFA and total CHOL concentrations (in millimoles per litre) varied inter-specifically and with season, year, and shark length varied within a species. The TAG were highest in the plasma of less active species (nurse and tiger sharks), whereas FFA were highest among species with relatively high energetic demands (blacktip and bull sharks), and CHOL concentrations were highest in bull sharks. Although temporal patterns in all metabolites were varied among species, there appeared to be peaks in the spring and summer, with ratios of TAG/CHOL (a proxy for condition) in all species displaying a notable peak in summer. These results provide baseline information of energy metabolism in large sharks and are an important step in understanding how the metabolic parameters can be assessed through non-lethal sampling in the future. In particular, this study emphasizes the importance of accounting for intra-specific and temporal variability in sampling designs seeking to monitor the nutritional condition and metabolic responses of shark populations.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5570055 | PMC |
| http://dx.doi.org/10.1093/conphys/cox002 | DOI Listing |
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