Harsh environments favour gender diomorphism in the 'Wurmbea biglandulosa' (Colchicaceae)

Vaughton, Glenda Vera; Ramsey, Michael William

Author(s)

Vaughton, Glenda Vera

Ramsey, Michael William

Publication Date

2003

Abstract

In flowering plants, the evolution of dimorphic sexual systems (e.g. gynodioecy and dioecy) from monomorphic ancestors is often associated with aridity, or otherwise harsh environmental conditions. One hypothesis to explain this pattern is that harsh conditions adversely affect seed fertility of hermaphrodites more than females, resulting in greater relative female fitness in such environments. 'Wurmbea biglandulosa' exhibits interpopulation variation in sexual system and in female frequency in dimorphic populations. We investigate how environmental quality and hermaphrodite seed fertility differ between monomorphic (hermaphrodites only) and dimorphic (females and hermaphrodites) populations and whether relative female fitness and female frequency are higher in harsher sites. Dimorphic populations were characterised by hotter and drier conditions with lower soil moisture and less vegetation cover than monomorphic populations. Consistent with these environmental differences, hermaphrodites had lower seed fertility in dimorphic than monomorphic populations. In dimorphic populations, relative hermaphrodite fitness was correlated with site quality and the frequency of females. By contrast, female frequency was not correlated with site quality. These results confirm that harsh environmental conditions play a role in the evolution of gender dimorphism in 'W. biglandulosa' by differently affecting the seed fertility of the sexual morphs.

Citation

Abstracts of ESA Ecology 2003 Conference, p. 157-157

ISBN

1863898603

Link

https://hdl.handle.net/1959.11/4592

Language

en

Publisher

University of New England

Title

Harsh environments favour gender diomorphism in the 'Wurmbea biglandulosa' (Colchicaceae)

Type of document

Conference Publication

Entity Type

Publication

Author(s)	Vaughton, Glenda Vera Ramsey, Michael William
Publication Date	2003
Abstract	In flowering plants, the evolution of dimorphic sexual systems (e.g. gynodioecy and dioecy) from monomorphic ancestors is often associated with aridity, or otherwise harsh environmental conditions. One hypothesis to explain this pattern is that harsh conditions adversely affect seed fertility of hermaphrodites more than females, resulting in greater relative female fitness in such environments. 'Wurmbea biglandulosa' exhibits interpopulation variation in sexual system and in female frequency in dimorphic populations. We investigate how environmental quality and hermaphrodite seed fertility differ between monomorphic (hermaphrodites only) and dimorphic (females and hermaphrodites) populations and whether relative female fitness and female frequency are higher in harsher sites. Dimorphic populations were characterised by hotter and drier conditions with lower soil moisture and less vegetation cover than monomorphic populations. Consistent with these environmental differences, hermaphrodites had lower seed fertility in dimorphic than monomorphic populations. In dimorphic populations, relative hermaphrodite fitness was correlated with site quality and the frequency of females. By contrast, female frequency was not correlated with site quality. These results confirm that harsh environmental conditions play a role in the evolution of gender dimorphism in 'W. biglandulosa' by differently affecting the seed fertility of the sexual morphs.
Citation	Abstracts of ESA Ecology 2003 Conference, p. 157-157
ISBN	1863898603
Link	https://hdl.handle.net/1959.11/4592
Language	en
Publisher	University of New England
Title	Harsh environments favour gender diomorphism in the 'Wurmbea biglandulosa' (Colchicaceae)
Type of document	Conference Publication
Entity Type	Publication

Harsh environments favour gender diomorphism in the 'Wurmbea biglandulosa' (Colchicaceae)

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