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Effects of bottlenecks on quantitative genetic variation in the butterfly Bicyclus anynana

Published online by Cambridge University Press:  08 June 2001

ILIK J. SACCHERI
Affiliation:
Research Group in Evolutionary Biology, Institute of Evolutionary and Ecological Sciences, University of Leiden, Kaiserstraat 63, PO Box 9516, 2300 RA Leiden, The Netherlands Conservation Genetics Group, Institute of Zoology, The Zoological Society of London, Regent's Park, London NW1 4RY, UK Present address: Population and Evolutionary Biology Research Group, School of Biological Sciences, University of Liverpool, Nicholson Building, Brownlow Street, Liverpool L69 3GS, UK. Tel: +44 (0)151 7945116. Fax: +44 (0)151 7945094. e-mail: [email protected]
RICHARD A. NICHOLS
Affiliation:
School of Biological Sciences, Queen Mary & Westfield College, University of London, Mile End Road, London E1 4NS, UK
PAUL M. BRAKEFIELD
Affiliation:
Research Group in Evolutionary Biology, Institute of Evolutionary and Ecological Sciences, University of Leiden, Kaiserstraat 63, PO Box 9516, 2300 RA Leiden, The Netherlands
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Abstract

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The effects of a single population bottleneck of differing severity on heritability and additive genetic variance was investigated experimentally using a butterfly. An outbred laboratory stock was used to found replicate lines with one pair, three pairs and 10 pairs of adults, as well as control lines with approximately 75 effective pairs. Heritability and additive genetic variance of eight wing pattern characters and wing size were estimated using parent–offspring covariances in the base population and in all daughter lines. Individual morphological characters and principal components of the nine characters showed a consistent pattern of treatment effects in which average heritability and additive genetic variance was lower in one pair and three pair lines than in 10 pair and control lines. Observed losses in heritability and additive genetic variance were significantly greater than predicted by the neutral additive model when calculated with coefficients of inbreeding estimated from demographic parameters alone. However, use of molecular markers revealed substantially more inbreeding, generated by increased variance in family size and background selection. Conservative interpretation of a statistical analysis incorporating this previously undetected inbreeding led to the conclusion that the response to inbreeding of the morphological traits studied showed no significant departure from the neutral additive model. This result is consistent with the evidence for minimal directional dominance for these traits. In contrast, egg hatching rate in the same experimental lines showed strong inbreeding depression, increased phenotypic variance and rapid response to selection, highly indicative of an increase in additive genetic variance due to dominance variance conversion.

Type
Research Paper
Copyright
© 2001 Cambridge University Press