Maternal Age-Related Depletion of Offspring Genetic Variance in Immune Response to Phytohaemagglutinin in the Blue Tit (Cyanistes caeruleus)

Studies examining age-specific patterns in genetic variance have focussed primarily on changes in the genetic variance within cohorts. It remains unclear whether parental age may affect the genetic variance among offspring. To date, such an effect has been reported only in a single study performed i...

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Bibliographic Details
Published in:Evolutionary biology 2015-03, Vol.42 (1), p.88-98
Main Authors: Drobniak, Szymon M., Dubiec, Anna, Gustafsson, Lars, Cichoń, Mariusz
Format: Article
Language:English
Subjects:
Age
Animal Genetics and Genomics
Animal models
Biomedical and Life Sciences
Bird populations
Blue tit
Body size
Body weight
Cyanistes caeruleus
Developmental Biology
Ecology
Environmental effects
Evolutionary Biology
Genetic crosses
Genetic diversity
Genetic interaction
Genetic research
Heritability
Human Genetics
Immune response
Immunocompetence
Life Sciences
Phenotypic variations
Quantitative genetics
Research Article
Zebrafish
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Summary:Studies examining age-specific patterns in genetic variance have focussed primarily on changes in the genetic variance within cohorts. It remains unclear whether parental age may affect the genetic variance among offspring. To date, such an effect has been reported only in a single study performed in a wild bird population. Here, we provide experimental evidence that the additive genetic variance (V A ) observed among offspring may be related to parental age in a wild passerine—the blue tit ( Cyanistes caeruleus ). To separate genetic and environmental components of phenotypic variance in nestling body size and immune function we cross-fostered nestlings between pairs of broods born to young and old mothers and used an animal model to estimate V A . We show that the genetic variance in immune response to phytohaemagglutinin (PHA) and body weight among offspring depends on maternal age. V A in response to PHA appeared to be lower among nestlings of older mothers. Such a tendency was not observed for tarsus length. We argue that the lower V A may result either from depletion of additive genetic variation due to selection acting on parents across age classes or from environmental effects confounded with parental age. Thus, our study suggests that parental age may significantly affect estimates of quantitative genetic parameters in the offspring.
ISSN:0071-3260
1934-2845
1934-2845
DOI:10.1007/s11692-014-9301-8