Isotopic discrimination factors and nitrogen turnover rates in reared Atlantic bluefin tuna larvae (Thunnus thynnus): effects of maternal transmission

The use of stable isotope analysis to study animal diets requires estimates of isotopic turnover rates (half time, t50) and discrimination factors (Δ) for an accurate interpretation of trophic patterns. The stable isotopes of carbon and nitrogen were analysed for eggs and reared larvae of Thunnus th...

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Bibliographic Details
Published in:Scientia marina 2016-12, Vol.80 (4), p.447-456
Main Authors: Uriarte, Amaya, García, Alberto, Ortega, Aurelio, De la Gándara, Fernando, Quintanilla, José, Laiz-Carrión, Raúl
Format: Article
Language:English
Subjects:
Aquaculture
bluefin tuna larvae
Breeding stock
Cannibalism
Carbon
Content analysis
Diet
Digestive system
Discrimination
discrimination factors
Ecology
Eggs
Fishing
Food chains
Isotopes
Larvae
Marine fishes
Maternal inheritance
maternal transmission
Nitrogen
nitrogen turnover ratio
Notochord
Stable isotopes
Steady state
Studies
Thunnus thynnus
Tuna
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Summary:The use of stable isotope analysis to study animal diets requires estimates of isotopic turnover rates (half time, t50) and discrimination factors (Δ) for an accurate interpretation of trophic patterns. The stable isotopes of carbon and nitrogen were analysed for eggs and reared larvae of Thunnus thynnus, as well as for the different diets supplied during the experiment. The results showed high values of δ15N in eggs and larvae (n=646) until 4 DAH. After this time lapse, the stable isotope values declined progressively until 12 DAH, when notochord flexion began. The δ13C showed an inverse trend, suggesting that maternal inheritance of the stable isotopes is evident until pre-flexion stages. This study proposes a model for estimating maternal isotopic signatures of bluefin broodstock. After notochord flexion, larvae were fed with aquaculture-bred gilthead seabream, which resulted in a rapid increase of bluefin larvae δ15N values together with a rapid decrease in δ13C values. The estimated nitrogen half-time to reach the steady state from the diet was 2.5±0.3 days and the discrimination factor was 0.4±0.3(‰). These results represent the first data set that has allowed isotopic nitrogen turnover rates and discrimination factors of the larval stages of bluefin tuna to be estimated.
ISSN:0214-8358
1886-8134
DOI:10.3989/scimar.04435.25A