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Mitochondrial malic enzyme (MEP-2*) genotype, temperature and growth in juvenile Atlantic salmon (Salmo salar L.)

The genetic variation at the diallelic mitochondrial malic enzyme (<I>MEP-2*</I>) locus represents one of the most widespread polymorphisms detected in the Atlantic salmon (<I>Salmo salar </I>L.). Previous studies of this locus in wild fish populations have found evidence to suggest an adaptive genetic response to local environmental temperature. In both Europe and North America, latitudinal clines in the frequencies of the two <I>MEP-2*</I> alleles exist, that show the same correlation with environmental temperature. In addition, these studies have identified variable associations between <I>MEP-2*</I> genotypes and phenotypic variation in juvenile growth in freshwater. Because growth performance is known to influence survival and reproductive success in Atlantic salmon, it has been postulated that differences in <I>MEP-2*</I> genotype growth performance could be a factor underlying the basis of this apparent adaptive response. This thesis investigates the relationship between <I>MEP-2*</I> genotype, temperature and growth performance in juvenile Atlantic salmon. The thesis aims were (i) to determine whether the genetic variation at the <I>MEP-2*</I> locus in the Atlantic salmon was associated with differences in juvenile growth performance in freshwater, (ii) when any such differences were established, and (iii) to what extent water temperature influenced the association. These were achieved by monitoring <I>MEP-2*</I> genotype growth performance and survival in juvenile Atlantic salmon, hatchery reared under warm (ambient plus <I>ca.</I>4°C), ambient (seasonally variable ambient water temperature) and cold (ambient minus <I>ca. </I>4°C) water temperature regimens. The results obtained in this study clearly demonstrate that the genetic variation at the <I>MEP-2*</I> locus in the Atlantic salmon is associated with significant differences in juvenile growth performance in freshwater. Associations were observed both early in post-hatch development, and later when the fish had made the transition to exogenous feeding. Furthermore, these associations were found to be strongly influenced by both temperature and feeding ration. These are specific new findings which significantly add to our present knowledge of the <I>MEP-2*</I> polymorphism in the Atlantic salmon. Although these associations did not influence survival in the study, it is postulated that if the same effect were to occur in natural populations, the genetic response indicated could influence fitness. Additionally, it is possible that these genotypic differences in growth performance could be of relevance to selective breeding programs within the salmon farming industry. However, whether the genetic response exhibited was directly due to the <I>MEP-2</I>* locus on its own, or to some other linked locus or loci, remains to be demonstrated.

Identiferoai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:322638
Date January 1995
CreatorsPringle, Gideon M.
PublisherUniversity of Aberdeen
Source SetsEthos UK
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation

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