Article
Details
Citation
Brito VLG, Nunes CEP, Resende CR, Montealegre-Zapata F & Vallejo-Marín M (2020) Biomechanical properties of a buzz-pollinated flower. Royal Society Open Science, 7 (9), Art. No.: 201010. https://doi.org/10.1098/rsos.201010
Abstract
Approximately half of all bee species use vibrations to remove pollen from plants with diverse floral morphologies. In many buzz-pollinated flowers, these mechanical vibrations generated by bees are transmitted through floral tissues, principally pollen-containing anthers, causing pollen to be ejected from small openings (pores or slits) at the tip of the stamen. Despite the importance of substrate-borne vibrations for both bees and plants, few studies to date have characterized the transmission properties of floral vibrations. In this study, we use contactless laser vibrometry to evaluate the transmission of vibrations in the corolla and anthers of buzz-pollinated flowers of Solanum rostratum, and measure vibrations in three spatial axes. We found that floral vibrations conserve their dominant frequency (300 Hz) as they are transmitted throughout the flower. We also found that vibration amplitude at anthers and petals can be up to greater than 400% higher than input amplitude applied at the receptacle at the base of the flower, and that anthers vibrate with a higher amplitude velocity than petals. Together, these results suggest that vibrations travel differently through floral structures and across different spatial axes. As pollen release is a function of vibration amplitude, we conjecture that bees might benefit from applying vibrations in the axes associated with higher vibration amplification.
Keywords
buzz pollination; biomechanics; heteranthery; pollination; bees; Solanum
Journal
Royal Society Open Science: Volume 7, Issue 9
Status | Published |
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Funders | Funda??o de Amparo à Pesquisa do Estado de Minas Gerais, Leverhulme Trust and Coordena??o de Aperfei?oamento de Pessoal de Nível Superior |
Publication date | 30/09/2020 |
Publication date online | 16/09/2020 |
Date accepted by journal | 28/08/2020 |
URL | |
Related URLs | |
Publisher | The Royal Society |
eISSN | 2054-5703 |