Bottleneck-induced dissolution of self-incompatibility and breeding system consequences in Aster furcatus (Asteraceae)

Bottleneck-induced dissolution of self-incompatibility and breeding system consequences in Aster furcatus (Asteraceae)

Aster furcatus is a rare species with extremely limited genetic variation at isozyme loci. We utilized crossing experiments and seed set data obtained from natural populations to verify that there is also little allelic variation at the self-incompatibility (S) locus. Seed set in several populations...

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Bibliographic Details
Published in:American journal of botany Vol. 81; no. 4; pp. 446 - 455
Main Authors: Reinartz, J.A. (University of Wisconsin-Milwaukee, Saukville, WI.), Les, D.H
Format: Journal Article
Language:English
Published: Ithaca, NY American Botanical Society 01-04-1994
Botanical Society of America
Botanical Society of America, Inc
Subjects:
Achenes
Alleles
Animal and plant ecology
Animal, plant and microbial ecology
ASTER
AUTOCOMPATIBILIDAD
AUTOCOMPATIBILITE
AUTOESTERILIDAD
AUTOSTERILITE
Biological and medical sciences
Botany
Demecology
Evolution
Florets
Fundamental and applied biological sciences. Psychology
GENE
GENES
Genetic diversity
GENETICA
GENETIQUE
HINCHAMIENTO DE LA SEMILLA
ISOENZIMAS
ISOENZYME
LOCI
LOCUS
Natural populations
Plant genetics
Plant reproduction
Plants
Plants and fungi
Pollen
Population distributions
Population genetics
Rare species
REMPLISSAGE DU GRAIN
REPRODUCCION SEXUAL
REPRODUCTION SEXUEE
Reproductive Biology
Seed set
VARIACION GENETICA
VARIATION GENETIQUE
WISCONSIN
United States
North America
Wisconsin
America
Genetic drift
Seeds
Genetic variability
Seed production
Aster
Biological evolution
Compositae
Sexual reproduction
Population genetics
Rare species
Mating system
Selfincompatibility
Simulation
Dicotyledones
Selective advantage
Angiospermae
Spermatophyta
Habitat
Mathematical model
Computer aid
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Description
Summary:Aster furcatus is a rare species with extremely limited genetic variation at isozyme loci. We utilized crossing experiments and seed set data obtained from natural populations to verify that there is also little allelic variation at the self-incompatibility (S) locus. Seed set in several populations was limited by a low number of S-alleles. Associated with a low number of S-alleles in populations was the dissolution of the incompatibility system, manifest by individual variation in self-compatibility, and by complex dominance relationships among S-alleles. Plant self-compatibility was correlated with mean number of ovules per inflorescence. Thus, self-compatibility appeared to be under partial environmental influence. Computer simulations revealed that the shapes of seed set distribution curves of modeled self-incompatible plant populations depend on the number of incompatibility alleles in the populations. By varying the number of S-alleles in modeled populations, we generated seed set distribution curves similar to those of natural populations. Genetic bottlenecks reduce the number of S-alleles and the proportion of compatible matings in populations of multiallelic self-incompatible species. Self-compatible genotypes are at a selective advantage in populations that lack a sufficient number of S-alleles to produce compatible crosses. Aster furcatus appears to be evolving self-compatibility as a result of bottleneck-induced losses of S-alleles
Bibliography:9529486
F63
F30
ISSN:0002-9122
1537-2197
DOI:10.1002/j.1537-2197.1994.tb15469.x