Dynamics of pollen release in relation to anther-wall structure among species of Solanum (Solanaceae)
Lilian Passarelli A C and Andrea Cocucci BA Laboratorio de Estudios de Anatomía Vegetal, Evolutiva y Sistemática, Facultad de Ciencias Naturales y Museo, 64 y 120 La Plata, Argentina.
B Instituto Multidisciplinario de Biología Vegetal, Casilla de Correo 495, 5000 Córdoba, Argentina.
C Corresponding author. Email: lmpassarelli@yahoo.com.ar
Australian Journal of Botany 54(8) 765-771 https://doi.org/10.1071/BT05154
Submitted: 7 September 2005 Accepted: 13 June 2006 Published: 29 November 2006
Abstract
Dynamics of pollen release in relation to anther-wall structure among species of Solanum (sects Brevantherum, Cyphomandropsis and Pachyphylla) were studied. Differences in anther-wall qualities (multi-layered and rigid v. single-layered and flexible) were correlated with shifts between vibratory and pneumatic mechanisms. The species presented different exploitation mechanisms for bees to obtain their pollen. The number of replications (strokes on the bellows and buzzing actions) needed to empty the anthers and the total amount of pollen per flower were significantly different among the species. However, the differences were not correlated with differences in structural anther features. The pollination syndrome was related only to the total amount of pollen per flower, which was larger in the pollen flowers. We propose that the pneumatic mechanisms may have played a role simultaneously with the vibratory mechanism as an unclogging device or as a means of increasing male fitness by the pattern of pollen distribution. The pre-existence of the pneumatic principle in pollen flowers must have opened the possibility of pollen deposition on visitors without vibratory capabilities such as a male bee. Parallel to this change a shift in the reward system must have occurred.
Acknowledgments
We are indebted to Dr Lynn Bohs for improving the manuscript by providing valuable suggestions, and to Dr Ricardo Polero for permission to use the microanalytical balance, which was critical for this study. Financial support from CONICET, of which A. A. C. is a member, is also greatly acknowledged.
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