Feeding habits of juvenile yellowfin tuna (Thunnus albacares) in Ecuadorian waters assessed from stomach content and stable isotope analysis

•Feeding habits of juvenile yellowfin tuna were assessed by SCA and SIA.•Bullet and frigate tunas (Auxis spp.) were the most important prey species.•Both SCA and SIA analysis showed two dietary shifts to occur at a FL∼50 and FL∼60cm.•C and N stable isotope ratios increased with yellowfin tuna size....

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Bibliographic Details
Published in:Fisheries research 2017-10, Vol.194, p.89-98
Main Authors: Varela, José Luis, Intriago, Ketty María, Flores, Julio César, Lucas-Pilozo, Cristhian Ronald
Format: Article
Language:English
Subjects:
Bayesian model
Feeding
Ontogenetic changes
Scombridae
Stable isotope analysis
Stomach content analysis
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Summary:•Feeding habits of juvenile yellowfin tuna were assessed by SCA and SIA.•Bullet and frigate tunas (Auxis spp.) were the most important prey species.•Both SCA and SIA analysis showed two dietary shifts to occur at a FL∼50 and FL∼60cm.•C and N stable isotope ratios increased with yellowfin tuna size. Size-related shifts in feeding habits of juvenile yellowfin tuna (YFT), Thunnus albacares (Bonnaterre, 1788), in Ecuadorian waters were assessed using stomach content analysis (SCA) (n=339) and stable isotope analysis (n=83). In all size classes, fishes were the predominant prey group in the diet (Alimentary Index, %AI=96.86) followed by cephalopods (%AI=3.29) and crustaceans (%AI=0.03). PERMANOVA analysis revealed significant variations in diet with body size: i) Class I YFT (≤50cm in fork length, FL) fed mainly on laternfishes, family Myctophidae (%AI=37.34), and jumbo squid, Dosidicus gigas (%AI=36.06), Class II YFT (50–60cm, FL) consumed bullet and frigate tunas, Auxis spp., unidentifiable fish and jumbo squid (%AI=47.75, %AI=25.06 and%AI=21.67, respectively), and Class III YFT (≥60cm, FL) preyed almost exclusively on bullet and frigate tunas (%AI=90.85). Mean±SD muscle isotope values were 12.14±1.95‰ for δ15N and −17.42±0.27 for δ13C‰; mean (±SD) liver values were 11.30‰ for δ15N and −17.42±0.27‰ for δ13C. Overall, liver and muscle samples showed significant size-related differences in δ15N and δ13C. Stable isotope Bayesian ellipses, SEAc, did not show trophic overlap among size classes. A significant positive linear correlation was observed between δ15N and δ13C measured in liver and muscle tissues with body size, suggesting an increase of prey size as tuna grew. These results indicate that the observed size-related diet shifts are not only related to prey type, but also to prey size.
ISSN:0165-7836
1872-6763
DOI:10.1016/j.fishres.2017.05.017