Anther cones increase pollen release in buzz‐pollinated Solanum flowers

The widespread evolution of tube‐like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove pollen. The mechanical connection among anthers in buzz‐pollinated species varies from loosely held conformations, to anthers tightly held tog...

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Published inEvolution Vol. 76; no. 5; pp. 931 - 945
Main Authors Vallejo‐Marín, Mario, Pereira Nunes, Carlos Eduardo, Russell, Avery Leigh
Format Journal Article
LanguageEnglish
Published United States Oxford University Press 01.05.2022
John Wiley and Sons Inc
Subjects
Adaptiveness
Animals
Anther cone
Anthers
Bees
buzz pollination
Cones
Conical bodies
convergent evolution
Evolution
Flowers
Original
Pollen
pollen release
Pollination
Solanum
Solanum - genetics
Species
Trichomes
Vibrations
pollen release
pollination
convergent evolution
Anther cone
buzz pollination
bees
Online AccessGet full text

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Abstract The widespread evolution of tube‐like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove pollen. The mechanical connection among anthers in buzz‐pollinated species varies from loosely held conformations, to anthers tightly held together with trichomes or bioadhesives forming a functionally joined conical structure (anther cone). Joined anther cones in buzz‐pollinated species have evolved independently across plant families and via different genetic mechanisms, yet their functional significance remains mostly untested. We used experimental manipulations to compare vibrational and functional (pollen release) consequences of joined anther cones in three buzz‐pollinated species of Solanum (Solanaceae). We applied bee‐like vibrations to focal anthers in flowers with (“joined”) and without (“free”) experimentally created joined anther cones, and characterized vibrations transmitted to other anthers and the amount of pollen released. We found that joined anther architectures cause nonfocal anthers to vibrate at higher amplitudes than free architectures. Moreover, in the two species with naturally loosely held anthers, anther fusion increases pollen release, whereas in the species with a free but naturally compact architecture it does not. We discuss hypotheses for the adaptive significance of the convergent evolution of joined anther cones.
AbstractList The widespread evolution of tube‐like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove pollen. The mechanical connection among anthers in buzz‐pollinated species varies from loosely held conformations, to anthers tightly held together with trichomes or bioadhesives forming a functionally joined conical structure (anther cone). Joined anther cones in buzz‐pollinated species have evolved independently across plant families and via different genetic mechanisms, yet their functional significance remains mostly untested. We used experimental manipulations to compare vibrational and functional (pollen release) consequences of joined anther cones in three buzz‐pollinated species of Solanum (Solanaceae). We applied bee‐like vibrations to focal anthers in flowers with (“joined”) and without (“free”) experimentally created joined anther cones, and characterized vibrations transmitted to other anthers and the amount of pollen released. We found that joined anther architectures cause nonfocal anthers to vibrate at higher amplitudes than free architectures. Moreover, in the two species with naturally loosely held anthers, anther fusion increases pollen release, whereas in the species with a free but naturally compact architecture it does not. We discuss hypotheses for the adaptive significance of the convergent evolution of joined anther cones.
The widespread evolution of tube-like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove pollen. The mechanical connection among anthers in buzz-pollinated species varies from loosely held conformations, to anthers tightly held together with trichomes or bioadhesives forming a functionally joined conical structure (anther cone). Joined anther cones in buzz-pollinated species have evolved independently across plant families and via differ- ent genetic mechanisms, yet their functional significance remains mostly untested. We used experimental manipulations to com- pare vibrational and functional (pollen release) consequences of joined anther cones in three buzz-pollinated species of Solanum (Solanaceae). We applied bee-like vibrations to focal anthers in flowers with (“joined”) and without (“free”) experimentally created joined anther cones, and characterized vibrations transmitted to other anthers and the amount of pollen released. We found that joined anther architectures cause nonfocal anthers to vibrate at higher amplitudes than free architectures. Moreover, in the two species with naturally loosely held anthers, anther fusion increases pollen release, whereas in the species with a free but naturally compact architecture it does not. We discuss hypotheses for the adaptive significance of the convergent evolution of joined anther cones.
The widespread evolution of tube-like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove pollen. The mechanical connection among anthers in buzz-pollinated species varies from loosely held conformations, to anthers tightly held together with trichomes or bioadhesives forming a functionally joined conical structure (anther cone). Joined anther cones in buzz-pollinated species have evolved independently across plant families and via different genetic mechanisms, yet their functional significance remains mostly untested. We used experimental manipulations to compare vibrational and functional (pollen release) consequences of joined anther cones in three buzz-pollinated species of Solanum (Solanaceae). We applied bee-like vibrations to focal anthers in flowers with ("joined") and without ("free") experimentally created joined anther cones, and characterized vibrations transmitted to other anthers and the amount of pollen released. We found that joined anther architectures cause nonfocal anthers to vibrate at higher amplitudes than free architectures. Moreover, in the two species with naturally loosely held anthers, anther fusion increases pollen release, whereas in the species with a free but naturally compact architecture it does not. We discuss hypotheses for the adaptive significance of the convergent evolution of joined anther cones.The widespread evolution of tube-like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove pollen. The mechanical connection among anthers in buzz-pollinated species varies from loosely held conformations, to anthers tightly held together with trichomes or bioadhesives forming a functionally joined conical structure (anther cone). Joined anther cones in buzz-pollinated species have evolved independently across plant families and via different genetic mechanisms, yet their functional significance remains mostly untested. We used experimental manipulations to compare vibrational and functional (pollen release) consequences of joined anther cones in three buzz-pollinated species of Solanum (Solanaceae). We applied bee-like vibrations to focal anthers in flowers with ("joined") and without ("free") experimentally created joined anther cones, and characterized vibrations transmitted to other anthers and the amount of pollen released. We found that joined anther architectures cause nonfocal anthers to vibrate at higher amplitudes than free architectures. Moreover, in the two species with naturally loosely held anthers, anther fusion increases pollen release, whereas in the species with a free but naturally compact architecture it does not. We discuss hypotheses for the adaptive significance of the convergent evolution of joined anther cones.
The widespread evolution of tube-like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove pollen. The mechanical connection among anthers in buzz-pollinated species varies from loosely held conformations, to anthers tightly held together with trichomes or bioadhesives forming a functionally joined conical structure (anther cone). Joined anther cones in buzz-pollinated species have evolved independently across plant families and via different genetic mechanisms, yet their functional significance remains mostly untested. We used experimental manipulations to compare vibrational and functional (pollen release) consequences of joined anther cones in three buzz-pollinated species of Solanum (Solanaceae). We applied bee-like vibrations to focal anthers in flowers with ("joined") and without ("free") experimentally created joined anther cones, and characterized vibrations transmitted to other anthers and the amount of pollen released. We found that joined anther architectures cause nonfocal anthers to vibrate at higher amplitudes than free architectures. Moreover, in the two species with naturally loosely held anthers, anther fusion increases pollen release, whereas in the species with a free but naturally compact architecture it does not. We discuss hypotheses for the adaptive significance of the convergent evolution of joined anther cones.
Author Vallejo‐Marín, Mario
Pereira Nunes, Carlos Eduardo
Russell, Avery Leigh
AuthorAffiliation 1 Biological and Environmental Sciences University of Stirling Stirling FK9 4LA United Kingdom
2 Department of Biology Missouri State University Springfield Missouri 65897
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– name: 1 Biological and Environmental Sciences University of Stirling Stirling FK9 4LA United Kingdom
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  givenname: Carlos Eduardo
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  surname: Pereira Nunes
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  organization: University of Stirling
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  givenname: Avery Leigh
  orcidid: 0000-0001-8036-2711
  surname: Russell
  fullname: Russell, Avery Leigh
  organization: Missouri State University
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Issue 5
Keywords pollen release
pollination
convergent evolution
Anther cone
buzz pollination
bees
Language English
License Attribution-NonCommercial
2022 The Authors. Evolution published by Wiley Periodicals LLC on behalf of The Society for the Study of Evolution.
This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
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– ident: e_1_2_9_69_1
  doi: 10.1093/aob/mcy102
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Snippet The widespread evolution of tube‐like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove...
The widespread evolution of tube-like anthers releasing pollen from apical pores is associated with buzz pollination, in which bees vibrate flowers to remove...
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pubmed
wiley
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SubjectTerms Adaptiveness
Animals
Anther cone
Anthers
Bees
buzz pollination
Cones
Conical bodies
convergent evolution
Evolution
Flowers
Original
Pollen
pollen release
Pollination
Solanum
Solanum - genetics
Species
Trichomes
Vibrations
Title Anther cones increase pollen release in buzz‐pollinated Solanum flowers
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fevo.14485
https://www.ncbi.nlm.nih.gov/pubmed/35324004
https://www.proquest.com/docview/2666300070
https://www.proquest.com/docview/2642898150/abstract/
https://pubmed.ncbi.nlm.nih.gov/PMC9313847
https://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-482867
Volume 76
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