Perfect genetic correlation between number of offspring and grandoffspring in an industrialized human population

Reproductive success is widely used as a measure of fitness. However, offspring quantity may not reflect the genetic contribution to subsequent generations if there is nonrandom variation in offspring quality. Offspring quality is likely to be an important component of human fitness, and tradeoffs b...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2014-01, Vol.111 (3), p.1032-1036
Main Authors: Zietsch, Brendan P., Kuja-Halkola, Ralf, Walum, Hasse, Verweij, Karin J. H.
Format: Article
Language:English
Subjects:
Aged
Aged, 80 and over
Biological Evolution
Biological Sciences
Biological variation
Correlation analysis
Ecological competition
Evolution
Evolutionary genetics
Family Characteristics
Female
Fertility
Gene-Environment Interaction
Genetic correlation
Genetic Variation
Genetics
Human genetics
Humans
Male
Medicin och hälsovetenskap
Models, Genetic
Models, Statistical
Phenotype
Phenotypic traits
Population Dynamics
Quantitative genetics
Reproduction - genetics
Selection, Genetic
Social Sciences
Statistical variance
Sweden
Twins
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Summary:Reproductive success is widely used as a measure of fitness. However, offspring quantity may not reflect the genetic contribution to subsequent generations if there is nonrandom variation in offspring quality. Offspring quality is likely to be an important component of human fitness, and tradeoffs between offspring quantity and quality have been reported. As such, studies using offspring quantity as a proxy for fitness may yield erroneous projections of evolutionary change, for example if there is little or no genetic variance in number of grandoffspring or if its genetic variance is to some extent independent of the genetic variance in number of offspring. To address this, we performed a quantitative genetic analysis on the reproductive history of 16,268 Swedish twins born between 1915 and 1929 and their offspring. There was significant sex limitation in the sources of familial variation, but the magnitudes of the genetic and environmental effects were the same in males and females. We found significant genetic variation in number of offspring and grandoffspring (heritability = 24% and 16%, respectively), and genetic variation in the two variables completely overlapped—i.e., there was a perfect genetic correlation between number of offspring and grandoffspring. Shared environment played a smaller but significant role in number of offspring and grandoffspring; again, there was a perfect shared environmental correlation between the two variables. These findings support the use of lifetime reproductive success as a proxy for fitness in populations like the one used here, but we caution against generalizing this conclusion to other kinds of human societies.
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1310058111