Inbreeding depression in an outbred nine-spined stickleback (Pungitius pungitius) population

Abstract

AbstractInbreeding depression refers to the reduced fitness of offspring produced by related individuals and is expected to be rare in large outbred populations. When it occurs, marked fitness loss is possible as large populations can carry large loads of recessive harmful mutations which are normally sheltered at the heterozygous state. Using experimental cross data and genome-wide identity-by-descent (IBD) relationships from an outbred marine nine-spined stickleback (Pungitius pungitius) population, we documented a significant decrease in offspring survival probability with increasing parental IBD sharing associated with an average inbreeding load (B) of 15.896. Interestingly, we found that this relationship was also underlined by a positive effect of paternal inbreeding coefficient on offspring survival, suggesting that certain combinations of parental inbreeding and genetic relatedness among mates may promote offspring survival. Apart from demonstrating substantial inbreeding load in an outbred population, the results also highlight the potential caveat associated with artificial establishment of families in experimental studies: wild founder individuals are often - and perhaps mistakenly - assumed to be unrelated.