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 in | Evolution Vol. 76; no. 5; pp. 931 - 945 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
United States
Oxford University Press
01.05.2022
John Wiley and Sons Inc |
Subjects | |
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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. |
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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 |
AuthorAffiliation_xml | – name: 2 Department of Biology Missouri State University Springfield Missouri 65897 – name: 1 Biological and Environmental Sciences University of Stirling Stirling FK9 4LA United Kingdom |
Author_xml | – sequence: 1 givenname: Mario orcidid: 0000-0002-5663-8025 surname: Vallejo‐Marín fullname: Vallejo‐Marín, Mario email: mario.vallejo@stir.ac.uk organization: Missouri State University – sequence: 2 givenname: Carlos Eduardo orcidid: 0000-0002-7534-0697 surname: Pereira Nunes fullname: Pereira Nunes, Carlos Eduardo organization: University of Stirling – sequence: 3 givenname: Avery Leigh orcidid: 0000-0001-8036-2711 surname: Russell fullname: Russell, Avery Leigh organization: Missouri State University |
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CitedBy_id | crossref_primary_10_1016_j_actao_2023_103957 crossref_primary_10_1017_inp_2023_21 crossref_primary_10_1371_journal_pone_0280875 crossref_primary_10_1086_722296 crossref_primary_10_1002_ajb2_16183 crossref_primary_10_1016_j_compag_2023_108472 crossref_primary_10_1007_s11829_022_09902_3 crossref_primary_10_1080_11263504_2023_2176942 crossref_primary_10_1111_evo_14584 crossref_primary_10_1007_s00442_022_05246_0 crossref_primary_10_1093_aob_mcad189 crossref_primary_10_1242_jeb_244258 |
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Keywords | pollen release pollination convergent evolution Anther cone buzz pollination bees |
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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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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 |
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