Functional dioecy and andromonoecy in Solanum

Field and laboratory studies of 19 diclinous species endemic to Australia help to clarify the nature and evolution of andromonoecy, androdioecy, and dioecy in the genus Solanum. Ten species are andromonoecious; typically these species bear inflorescences with a single, large basal hermaphroditic flo...

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Bibliographic Details
Published in:Evolution 1989-01, Vol.43 (1), p.204-219
Main Authors: Anderson, G.J, Symon, D.E
Format: Article
Language:English
Subjects:
ANDROGENESIS
Anthers
AUSTRALIA
AUSTRALIE
Bears
Biological and medical sciences
BIOLOGICAL DEVELOPMENT
Biological evolution
Biological taxonomies
Botany
DESARROLLO BIOLOGICO
DEVELOPPEMENT BIOLOGIQUE
Dioecy
EVOLUCION
EVOLUTION
FENOLOGIA
Flowers
Flowers & plants
Fundamental and applied biological sciences. Psychology
Genetics of eukaryotes. Biological and molecular evolution
GERMINACION
GERMINATION
GINECEO
GYNECEE
GYNOECIUM
INAPTURATE POLLEN
Inflorescences
Ovules
PHENOLOGIE
PHENOLOGY
Plants
POLEN
POLLEN
REPRODUCCION
REPRODUCTION
SEX
SEXE
SEXO
SOLANUM
Taxa
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Summary:Field and laboratory studies of 19 diclinous species endemic to Australia help to clarify the nature and evolution of andromonoecy, androdioecy, and dioecy in the genus Solanum. Ten species are andromonoecious; typically these species bear inflorescences with a single, large basal hermaphroditic flower and 12-60 distal, smaller staminate flowers. We suggest that the andromonoecious condition was derived from hermaphroditic-flowered ancestors in part by hemisterilization of flowers but largely by addition of staminate flowers. The resultant larger inflorescences are hypothesized to serve both to attract and to entrain pollinators, yielding more or higher-quality seed set in hermaphroditic flowers and/or greater dispersion of pollen from staminate flowers. We suggest that andromonoecy may also serve to reduce selfing. Nine other species are morphologically androdioecious but functionally dioecious. In these species, staminate flowers, like those of the andromonoecious species, bear anthers with copious tricolporate pollen and a highly reduced gynoecium. The morphologically hermaphroditic flowers are functionally pistillate and borne singly in inflorescences, and they bear anthers with inaperturate pollen. The inaperturate pollen, although viable, never germinates and is hypothesized to be retained in pistillate flowers as a reward to pollinators in the nectarless Solanum flowers. All other species of Solanum studied with pollen dimorphism in which one pollen morph is inaperturate are also best treated as functionally dioecious. We conclude that there is no evidence for androdioecy in Solanum. A review of other families suggests that there is little support for this unusual breeding system in any other angiosperm group either. Preliminary analyses suggest that andromonoecy and dioecy are polyphyletic in Solanum. Furthermore, dioecy is as likely to have arisen from hermaphroditic as from andromonoecious ancestors.
ISSN:0014-3820
1558-5646
DOI:10.1111/j.1558-5646.1989.tb04218.x