Survival of the currently fittest: genetics of rainbow trout survival across time and space

Harri Vehviläinen¹, Antti Kause, Cheryl Quinton, Heikki Koskinen, Tuija Paananen

Affiliations

PMID: 18757927
PMCID: PMC2535700
DOI: 10.1534/genetics.108.089896

Survival of the currently fittest: genetics of rainbow trout survival across time and space

Harri Vehviläinen et al. Genetics. 2008 Sep.

. 2008 Sep;180(1):507-16.

doi: 10.1534/genetics.108.089896. Epub 2008 Aug 30.

Authors

Harri Vehviläinen¹, Antti Kause, Cheryl Quinton, Heikki Koskinen, Tuija Paananen

Affiliation

¹ MTT Agrifood Research Finland, Biotechnology and Food Research, Biometrical Genetics, Jokioinen, Finland. vehvilainen@mtt.fi

PMID: 18757927
PMCID: PMC2535700
DOI: 10.1534/genetics.108.089896

Abstract

As a fitness trait, survival is assumed to exhibit low heritability due to strong selection eroding genetic variation and/or spatio-temporal variation in mortality agents reducing genetic and increasing residual variation. The latter phenomenon in particular may contribute to low heritability in multigeneration data, even if certain cohorts exhibit significant genetic variation. Analysis of survival data from 10 year classes of rainbow trout reared at three test stations showed that treating survival as a single trait across all generations resulted in low heritability (h2 = 0.08-0.17). However, when heritabilities were estimated from homogeneous generation and test station-specific cohorts, a wide range of heritability values was revealed (h2 = 0.04-0.71). Of 64 genetic correlations between different cohorts, 20 were positive, but 16 were significantly negative, confirming that genetic architecture of survival is not stable across generations and environments. These results reveal the existence of hidden genetic variation for survival and demonstrate that treating survival as one trait over several generations may not reveal its true genetic architecture. Negative genetic correlations between cohorts indicate that overall survival has limited potential to predict general resistance, and care should be taken when using it as selection criterion.

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Figures

F<sc>igure</sc> 1.— — **Figure 1.—**
Individual survival traits plotted along the first and second principal component axes for each population. Trait abbreviations are given in Table 2.

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References

1. Blows, M. W., S. F. Chenoweth and E. Hine, 2004. Orientation of the genetic variance-covariance matrix and the fitness surface for multiple male sexually selected traits. Am. Nat. 163 329–340. - PubMed
1. Camara, M., and M. Pigliucci, 1999. Mutational contributions to genetic variance/covariance matrices; an experimental approach using induced mutations in Arabidopsis thaliana. Evolution 53 1692–1703. - PubMed
1. Campbell, D. R., 1997. Genetic and environmental variation in life-history traits of a monocarpic perennial: a decade-long field experiment. Evolution 51 373–382. - PubMed
1. Casellas, J., G. Caja, X. Such and J. Piedrafita, 2007. Survival analysis from birth to slaughter of Ripollesa lambs under semi-intensive management. J. Anim. Sci. 85 512–517. - PubMed
1. Charmantier, A., and D. Garant, 2005. Environmental quality and evolutionary potential: lessons from wild populations. Proc. R. Soc. Ser. B 272 1415–1425. - PMC - PubMed

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Survival of the currently fittest: genetics of rainbow trout survival across time and space

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Survival of the currently fittest: genetics of rainbow trout survival across time and space

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