Abstract
One of the most important traits linked with the successful domestication of animals is reducing their sensitivity to environmental stressors in the human controlled environment. In order to examine whether domestication selection in Atlantic salmon Salmo salar L., over approximately ten generations, has inadvertently selected for reduced responsiveness to stress, we compared the growth reaction norms of 29 wild, hybrid and domesticated families reared together under standard hatchery conditions (control) and in the presence of a stressor (reduced water level twice daily). The experiment was conducted for a 14 week period. Farmed salmon outgrew wild salmon 1∶2.93 in the control tanks, and no overlap in mean weight was displayed between families representing the three groups. Thus, the elevation of the reaction norms differed among the groups. Overall, growth was approximately 25% lower in the stressed tanksl; however, farmed salmon outgrew wild salmon 1∶3.42 under these conditions. That farmed salmon maintained a relatively higher growth rate than the wild salmon in the stressed tanks demonstrates a lower responsiveness to stress in the farmed salmon. Thus, flatter reaction norm slopes were displayed in the farmed salmon, demonstrating reduced plasticity for this trait under these specific experimental conditions. For all growth measurements, hybrid salmon displayed intermediate values. Wild salmon displayed higher heritability estimates for body weight than the hybrid and farmed salmon in both environments. This suggests reduced genetic variation for body weight in the farmed contra wild salmon studied here. While these results may be linked to the specific families and stocks investigated, and verification in other stocks and traits is needed, these data are consistent with the theoretical predictions of domestication.
Highlights
Domestication is defined as the process whereby animals are adapted to the captive environment [1,2] and altered from their wild phenotype [3]
Model selection was performed by the use of the Deviance Information Criterion (DIC) and by the principle of parsimony, the tank random effect was only included if this improved the fit of the MCMCglmm
This study reports the growth reaction norms of farmed, hybrid and wild Atlantic salmon, at the family level, that have been communally reared in two contrasting environments
Summary
Domestication is defined as the process whereby animals are adapted to the captive environment [1,2] and altered from their wild phenotype [3]. Domestication is an evolutionary process, which involves adaptive genetic changes over generations [2], and is driven by directional selection for desirable traits in addition to inadvertent selection [4]. Traits that have a high heritability can be modulated by selection in a relatively short evolutionary time [1], even when not deliberately selected for. Tameness and reduced sensitivity to the domestic environment is essential for the successful domestication of animals [2,34], and has been directly selected for in species such as silver foxes Vulpes vulpes [13] and rats Rattus norvegicus [24]. Strains displaying high and low cortisol responses have been successfully selected for in fish such as common carp Cyprinus carpio L. [38], rainbow trout [16,39] and Atlantic salmon Salmo salar L. [39,40]
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