Longitudinal genetic analyses of fillet traits in Nile tilapia Oreochromis niloticus

There is little published information on genetic covariance estimates among meat yield traits in Nile tilapia. Longitudinal genetic analyses to evaluate patterns of environmental and genetic covariances among such traits during growth would help to establish selection criteria and predict direct and...

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Published in:Aquaculture Vol. 356-357; pp. 381 - 390
Main Authors: Maldonado Turra, Eduardo, Aparecida Andrade de Oliveira, Denise, Dourado Valente, Bruno, de Alencar Teixeira, Edgar, de Assis Prado, Samuel, Ramos de Alvarenga, Érika, Chemim de Melo, Daniela, Silva Felipe, Vivian Paula, Araújo Fernandes, Arthur Francisco, de Almeida e Silva, Martinho
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-08-2012
Elsevier Sequoia S.A
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Summary:There is little published information on genetic covariance estimates among meat yield traits in Nile tilapia. Longitudinal genetic analyses to evaluate patterns of environmental and genetic covariances among such traits during growth would help to establish selection criteria and predict direct and correlated response to selection. Accordingly, longitudinal genetic studies from 106 to 245days of age were performed by random regression models for carcass and fillet weights and yields in Nile tilapia. For each analysis, the statistical model included random family common environmental and genetic effects and assuming heterogeneity of residual variances. For carcass and fillet yield, genetic correlations between closely paired ages (from 140 to 200days) were higher (>0.80) than those separated by moderate (>0.40) or longer (approaching zero) intervals. For carcass and fillet weight, genetic correlations when both ages were greater than 125days post-hatching were larger than 0.60, and those when both ages were greater than 149days post-hatching were larger than 0.80. Heritability estimates for fillet and carcass yields ranged from moderate (0.12) to high (0.52), suggesting the likelihood that selection programs could improve these traits. The manner in which fillets were removed seems to influence the results. Heritability estimates for carcass and fillet weight ranged from high (0.52) to low (0.01). The family common environmental effect was important for reducing the heritability estimates of these two traits, probably due to high correlation of each trait to body weight at slaughter, which is substantially affected by the common family environmental effect. Accordingly, to increase the accuracy of predicted breeding values for these traits, it is important to reduce family effects by minimizing the duration during which families are reared separately, then tagging individual fish and initiating communal stocking at as early a life stage as possible. Based upon estimated genetic parameters among the traits, direct selection for body weight, carcass weight and fillet weight is not recommended if the breeding goal is to increase fillet yield as a correlated response. Contrarily, the high genetic correlations between body weight and fillet and carcass weights (>0.98) suggest that body weight could be used as a selection criterion to avoid slaughtering potential breeders to acquire data and to achieve higher selection intensity. ► There is little information on genetic parameters of meat yield traits in tilapia. ► Longitudinal genetic studies of these traits were performed by RRM. ► Fillet and carcass yield heritability estimates ranged from moderate to high. ► The way the fillets were removed seems to have high importance in the results. ► It is possible to obtain genetic changes in selection programs for these traits.
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content type line 23
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2012.04.039