Genetic heterogeneity of within-family variance of body weight in Atlantic salmon (Salmo salar)


Autoria(s): Sonesson, Anna K; Odegård, Jørgen; Rönnegård, Lars
Data(s)

2013

Resumo

BACKGROUND: Canalization is defined as the stability of a genotype against minor variations in both environment and genetics. Genetic variation in degree of canalization causes heterogeneity of within-family variance. The aims of this study are twofold: (1) quantify genetic heterogeneity of (within-family) residual variance in Atlantic salmon and (2) test whether the observed heterogeneity of (within-family) residual variance can be explained by simple scaling effects. RESULTS: Analysis of body weight in Atlantic salmon using a double hierarchical generalized linear model (DHGLM) revealed substantial heterogeneity of within-family variance. The 95% prediction interval for within-family variance ranged from ~0.4 to 1.2 kg2, implying that the within-family variance of the most extreme high families is expected to be approximately three times larger than the extreme low families. For cross-sectional data, DHGLM with an animal mean sub-model resulted in severe bias, while a corresponding sire-dam model was appropriate. Heterogeneity of variance was not sensitive to Box-Cox transformations of phenotypes, which implies that heterogeneity of variance exists beyond what would be expected from simple scaling effects. CONCLUSIONS: Substantial heterogeneity of within-family variance was found for body weight in Atlantic salmon. A tendency towards higher variance with higher means (scaling effects) was observed, but heterogeneity of within-family variance existed beyond what could be explained by simple scaling effects. For cross-sectional data, using the animal mean sub-model in the DHGLM resulted in biased estimates of variance components, which differed substantially both from a standard linear mean animal model and a sire-dam DHGLM model. Although genetic differences in canalization were observed, selection for increased canalization is difficult, because there is limited individual information for the variance sub-model, especially when based on cross-sectional data. Furthermore, potential macro-environmental changes (diet, climatic region, etc.) may make genetic heterogeneity of variance a less stable trait over time and space.

<p>Open Access</p>

Formato

application/pdf

Identificador

http://urn.kb.se/resolve?urn=urn:nbn:se:du-13184

doi:10.1186/1297-9686-45-41

PMID 24134557

ISI:000329409000001

Idioma(s)

eng

Publicador

Högskolan Dalarna, Statistik

Relação

Genetics Selection Evolution, 0999-193X, 2013, 45,

Direitos

info:eu-repo/semantics/openAccess

Tipo

Article in journal

info:eu-repo/semantics/article

text

Palavras-Chave #Genetics #Genetik