GENETIC VARIANCE OF SEXUALLY SELECTED TRAITS IN WAXMOTHS: MAINTENANCE BY GENOTYPE X ENVIRONMENT INTERACTION

GENETIC VARIANCE OF SEXUALLY SELECTED TRAITS IN WAXMOTHS: MAINTENANCE BY GENOTYPE X ENVIRONMENT INTERACTION

When traits experience directional selection, such as that imposed by sexual selection, their genetic variance is expected to diminish. Nonetheless, theory and findings from sexual selection predict and demonstrate that male traits favored by female choice retain substantial amounts of additive gene...

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Bibliographic Details
Published in:Evolution Vol. 54; no. 3; pp. 953 - 967
Main Authors: Jia, Feng-You, Greenfield, Michael D., Collins, Robert D.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-06-2000
Society for the Study of Evolution
Oxford University Press
Subjects:
Achroia grisella
Acoustic communication
Adaptation, Physiological
Animal communication
Animal reproduction
Animals
cross-environment genetic correlation
Crossing Over, Genetic
Crossovers
Environment
environmental heterogeneity
Evolution
Evolutionary genetics
Female
Genetic variance
Genetic Variation
Genetics
Genotype
Insects
Lepidoptera - genetics
Male
Male animals
Mating behavior
Moths
Phenotype
Phenotypic plasticity
Phenotypic traits
Pyralidae
reaction norm
Sex Characteristics
Sexual selection
Signal Transduction - genetics
ultrasonic signaling
Ultrasonics
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Summary:When traits experience directional selection, such as that imposed by sexual selection, their genetic variance is expected to diminish. Nonetheless, theory and findings from sexual selection predict and demonstrate that male traits favored by female choice retain substantial amounts of additive genetic variance. We explored this dilemma through an ecological genetic approach and focused on the potential contributions of genotype x environment interaction (GEI) to maintenance of additive genetic variance for male signal characters in the lesser waxmoth, Achroia grisella (Lepidoptera: Pyralidae). We artificially selected genetic variants for two male signal characters, signal rate (SR) and peak amplitude (PA), that influence female attraction and then examined the phenotypic plasticity of these variants (high- and low-SR and high- and low-PA lines) under a range of environmental conditions expected in natural populations. Our split-family breeding experiments indicated that two signal characters, SR and PA, and several developmental characters in both high- and low-SR and high- and low-PA lines displayed considerable phenotypic plasticity among the environments tested. Moreover, strong GEIs leading to crossover between high- and low-SR lines were found for SR and developmental period. Therefore, neither high- nor low-SR genetic variants would achieve maximum attractiveness and fitness in every environment, and those variants producing unattractive signals with low SRs under normal conditions may remain in populations provided that gene flow across environments or generation overlap are sufficiently high. We speculate that the phenotypic plasticity for SR and developmental period is adaptive in A. grisella populations experiencing a range of temperature and density conditions. Females mating with attractive (high-SR) males may be assured of obtaining good genes because these males sire offspring that develop more rapidly and a crossover for developmental period may parallel that for SR. Such parallel crossovers may be expected wherever good-genes sexual selection mechanisms operate.
Bibliography:istex:6D339E5B853556AE75744EA3F6D592ECB65F2FA0
ArticleID:EVO953
ark:/67375/WNG-SDZB1TBJ-0
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fjia@oz.oznet.ksu.edu
Present address: Department of Entomology, Kansas State University, Manhattan, Kansas 66506; E‐mail
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ISSN:0014-3820
1558-5646
DOI:10.1111/j.0014-3820.2000.tb00095.x