Multi-site evaluation of the rearing performances of 5 wild populations of European sea bass (Dicentrarchus labrax)

Sea bass is a major species in Mediterranean aquaculture, but has a distribution area ranging from North Atlantic to South Mediterranean, with a population structure previously revealed by population genetics. To test the farming performances of wild sea bass populations, we produced a partial diall...

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Bibliographic Details
Published in:Aquaculture 2014-03, Vol.424-425, p.239-248
Main Authors: Vandeputte, Marc, Garouste, Romain, Dupont-Nivet, Mathilde, Haffray, Pierrick, Vergnet, Alain, Chavanne, Hervé, Laureau, Stanislas, Ron, Tetsuzan Benny, Pagelson, Glen, Mazorra, Carlos, Ricoux, Rémi, Marques, Pedro, Gameiro, Marta, Chatain, Béatrice
Format: Article
Language:English
Subjects:
Agnatha. Pisces
Agricultural sciences
Animal and plant ecology
Animal aquaculture
Animal behavior
Animal productions
Animal, plant and microbial ecology
Aquaculture
Bass
Biological and medical sciences
Dicentrarchus labrax
European sea bass
Fundamental and applied biological sciences. Psychology
General aspects
Genotype & phenotype
Genotype by environment interaction
Growth
Life Sciences
Population genetics
Processing yields
Sea water ecosystems
Selective breeding
Synecology
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
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Summary:Sea bass is a major species in Mediterranean aquaculture, but has a distribution area ranging from North Atlantic to South Mediterranean, with a population structure previously revealed by population genetics. To test the farming performances of wild sea bass populations, we produced a partial diallel cross mating scheme, using sires originating from North Atlantic (NAT), South Atlantic (SAT), West Mediterranean (WEM), North-East Mediterranean (NEM) and South-East Mediterranean (SEM). Fifteen sires per origin were mated in a full-factorial design using artificial fertilization with 9 NAT dams and 17 WEM dams, producing 10 population crosses and 1950 potential full-sib families. All fish were reared together, then tagged at an average weight of 20g and distributed to four different sites (1800 fish per site). They were grown to an objective of 200g mean weight, where 737 to 775 fish were slaughtered in each site, and their parentage was recovered using 6 to 7 microsatellite loci, resulting in 98.9% unique assignments. All populations had similar growth rates until tagging size (20g), but differences appeared later on. No heterosis appeared for growth rate, and genotype by environment interaction (G×E) at the population level was limited, with a significant re-ranking only in one rearing site, while strong G×E for growth rate was observed within populations. Populations were different in shape, muscular fat content, and carcass yield, but not in fillet yield. In general, heterosis was absent and G×E was very limited between populations. No “ideal” population combining all favorable traits was identified. Differences between extreme populations ranged between 3 and 49% of the mean, depending on the traits. Interestingly, in almost all cases, these differences were within the reach of one generation of intense (5%) phenotypic selection. •Genetic and GxE effects were studied in 5 wild populations of European sea bass.•There was no heterosis and limited GxE interactions at the population level.•There was strong GxE interaction for growth rate (rA=0.38-0.67) at the family level.•No “ideal” population combining all favourable traits was identified.•One generation of selection could compensate most differences between populations.
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2014.01.005