Proximity-dependent Pollen Performance in Silene vulgaris

doi:10.1093/aob/mcl119

AOBPreview published online on May 30, 2006
Annals of Botany, doi:10.1093/aob/mcl119

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© The Author 2006. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received October 22, 2005
Revised March 15, 2006
Accepted April 11, 2006

Article

Proximity-dependent Pollen Performance in Silene vulgaris

MÉLANIE GLAETTLI ¹ ^*, LUCA PESCATORE ², and JÉRÔME GOUDET ²

¹ Department of Botany, University of Toronto, 25 Willcocks Street, Toronto, Ontario, Canada M5S 3B2
² Department of Ecology and Evolution, Biology Building, University of Lausanne, CH-1015 Lausanne, Switzerland

^* To whom correspondence should be addressed.
MÉLANIE GLAETTLI, E-mail: glaettli{at}botany.utoronto.ca

Abstract

• Background and Aims Pollen and seed dispersal in herbaceousinsect-pollinated plants are often restricted, inducing strongpopulation structure. To what extent this influences matingwithin and among patches is poorly understood. This study investigatesthe influence of population structure on pollen performanceusing controlled pollinations and genetic markers.

• MethodsPopulation structure was investigated in a patchily distributedpopulation of gynodioecious Silene vulgaris in Switzerland usingpolymorphic microsatellite markers. Experimental pollinationswere performed on 21 hermaphrodite recipients using pollen donorsat three spatial scales: (a) self-pollination; (b) within-patchcross-pollinations; and (c) between-patch cross-pollinations.Pollen performance was then compared with respect to crossingdistance.

• Key Results The population of S. vulgaris wascharacterized by a high degree of genetic sub-structure, withneighbouring plants more related to one another than to distantindividuals. Inbreeding probably results from both selfing andbiparental inbreeding. Pollen performance increased with distancebetween mates. Between-patch pollen performed significantlybetter than both self- and within-patch pollen donors. However,no significant difference was detected between self- and within-patchpollen donors.

• Conclusions The results suggest that populationstructure in animal-pollinated plants is likely to influencemating patterns by favouring cross-pollinations between unrelatedplants. However, the extent to which this mechanism could beeffective as a pre-zygotic barrier preventing inbred matingdepends on the patterns of pollinator foraging and their influenceon pollen dispersal.

Keywords: Population structure, microsatellites, pollen performance, gynodioecy, Silene vulgaris.

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