Maternal and paternal effects on fitness correlates in outbred and inbred Atlantic salmon (Salmo salar)

Abstract: Small populations are at risk of fitness reductions due to inbreeding depression and the loss of within-population genetic diversity. Although this risk can be mitigated by interpopulation outbreeding, any increases in genetic variability may be offset by reductions in fitness attributable...

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Bibliographic Details
Main Authors: Aimee Lee, S Houde, Dylan J Fraser, Patrick O'reilly, Jeffrey A Hutchings
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
Atlantic salmon
Salmo salar
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1050.9300
http://dylanfraser.com/wp-content/uploads/2011/04/houde-et-al-20111.pdf
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Summary:Abstract: Small populations are at risk of fitness reductions due to inbreeding depression and the loss of within-population genetic diversity. Although this risk can be mitigated by interpopulation outbreeding, any increases in genetic variability may be offset by reductions in fitness attributable to outbreeding depression. Here, we evaluate the risks of inbreeding and outbreeding by quantifying changes in survival and seven other fitness-related traits expressed in early life (e.g., specific growth rate, development time), using three small and neighbouring populations of Atlantic salmon (Salmo salar) reared under a common-garden experimental protocol. After accounting for parental (maternal and paternal) effects on several traits (which differed between pure and F1 outbred parents), we detected no significant cross type-level differences between inbred and pure (non-inbred, within-population) cross types, outbred and pure cross types, or inbred and outbred cross types. The extent to which parental effects on fitness-related traits might be considered beneficial or detrimental cannot be reliably determined in the absence of information on the adaptive significance of the trait values in the local environment. Résumé : Les petites populations risquent une réduction de leur fitness à cause de la dépression consanguine et de la perte de diversité génétique à l'intérieur de la population. Bien que ce risque puisse être mitigé par des croisements exogames entre les populations, toute augmentation de la variabilité génétique peut être neutralisée par des réductions de la fitness attribuables à la dépression exogame. Nous évaluons ici les risques de l'endogamie et de l'exogamie en mesurant les changements dans la survie et dans sept autres traits reliés à la fitness qui se manifestent dans les premiers stades de vie (par ex., le taux de croissance spécifique, la durée du développement) chez trois petites populations avoisinantes de saumons atlantiques (Salmo salar) élevées selon un protocole expérimental de jardin ...

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