%0 Journal Article
%9 ACL : Articles dans des revues avec comité de lecture répertoriées par l'AERES
%A Sardenne, Fany
%A Ménard, Frédéric
%A Degroote, M.
%A Fouche, Edwin
%A Guillou, G.
%A Lebreton, B.
%A Hollanda, S. J.
%A Bodin, Nathalie
%T Methods of lipid-normalization for multi-tissue stable isotope analyses in tropical tuna
%D 2015
%L fdi:010064796
%G ENG
%J Rapid Communications in Mass Spectrometry
%@ 0951-4198
%K OCEAN INDIEN
%M ISI:000357454600008
%N 13
%P 1253-1267
%R 10.1002/rcm.7215
%U https://www.documentation.ird.fr/hor/fdi:010064796
%> https://www.documentation.ird.fr/intranet/publi/2015/08/010064796.pdf
%V 29
%W Horizon (IRD)
%X RATIONALE: The bias associated with lipid contents in fish tissues is a recalcitrant topic for trophic studies using stable isotopes. Lipids are depleted in the heavy carbon isotope (C-13) and the lipid content varies considerably among species, tissues and in both time and space. We have applied and assessed different correction methods for tropical tuna tissues. METHODS: We tested two types of normalization methods to deal with variable lipid content in liver, gonads, and white and red muscles of yellowfin, bigeye and skipjack tuna: a chemical extraction using dichloromethane and a mathematical correction based on three modeling approaches (linear, non-linear and mass balance models). We measured isotopic ratios of bulk and lipid-free tissues and assessed the predictive ability of the correction models with the lipid-free measurements. The parameters of the models were estimated from our dataset and from results from published studies on other species. RESULTS: Comparison between bulk, lipid-free and lipid-corrected isotopic ratios demonstrated that (1) chemical extraction using dichloromethane did not affect delta N-15 values; (2) the change in delta C-13 values after extraction was tissue-specific; (3) lipid-normalization models using published parameter estimates failed to predict lipid-corrected delta C-13 values; and (4) linear and non-linear models using parameters estimated for each tissue from our dataset provided accurate delta C-13 predictions for all tissues, and mass balance model for white muscle only. CONCLUSIONS: Models using published estimates for parameters from other species cannot be used. Based on a range of lipid content that do not exceed 45%, we recommend the linear model to correct the bulk delta C-13 values in the investigated tissues but the parameters have to be estimated from a proportion of the original data for which chemical extraction is required and the isotopic values of bulk and lipid-free tissues are measured.
%$ 040 ; 020