Selective breeding can increase resistance of Atlantic salmon to furunculosis, infectious salmon anaemia and infectious pancreatic necrosis

We reasoned that by challenging large numbers of Atlantic salmon families with the causative agents of furunculosis, infectious salmon anaemia (ISA) and infectious pancreatic necrosis (IPN), we could show unequivocally that resistance to these diseases expresses moderate-to-high levels of additive genetic variation, and that the resistances are weakly correlated genetically. We tested this reasoning by challenging Atlantic salmon from 920 (approximately) full-sib families with the causative agents of furunculosis and ISA, and fish from 265 of these families with the causative agent of IPN. Additive genetic variation and genetic correlations were estimated by fitting a threshold liability model to the resistances assessed as binary traits. Resistance to furunculosis, ISA and IPN was moderate -to highly heritable. The marginal posterior means for heritability on the underlying liability scale were 0.37 for resistance to ISA, and 0.55 and 0.62 for resistance to IPN and furunculosis. Genetic correlations between the resistances were weak (-0.11 to 0.07). These levels of additive genetic variation indicate that resistance to furunculosis, ISA and IPN will respond to selection. The weak genetic correlations indicate that it should be relatively easy to improve resistance to the diseases simultaneously. We believe that there is now strong evidence that selectively breeding Atlantic salmon for resistance can be highly successful.