Wen-Long Han scite author profile

Wen-Long Han

3Publications

6Citation Statements Received

58Citation Statements Given

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Central China Normal University

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Touch-sensitive stamens enhance pollen dispersal by scaring away visitors

Han

Renner

et al. 2022

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Animal-pollinated plants have to get pollen to a conspecific stigma while protecting it from getting eaten. Touch-sensitive stamens, which are found in hundreds of flowering plants, are thought to function in enhancing pollen export and reducing its loss, but experimental tests are scarce. Stamens of Berberis and Mahonia are inserted between paired nectar glands and when touched by an insect’s tongue rapidly snap forward so that their valvate anthers press pollen on the insect’s tongue or face. We immobilized the stamens in otherwise unmodified flowers and studied pollen transfer in the field and under enclosed conditions. On flowers with immobilized stamens, the most common bee visitor stayed up to 3.6× longer, yet removed 1.3× fewer pollen grains and deposited 2.1× fewer grains on stigmas per visit. Self-pollen from a single stamen hitting the stigma amounted to 6% of the grains received from single bee visits. Bees discarded pollen passively placed on their bodies, likely because of its berberine content; nectar has no berberine. Syrphid flies fed on both nectar and pollen, taking more when stamens were immobilized. Pollen-tracking experiments in two Berberis species showed that mobile-stamen-flowers donate pollen to many more recipients. These results demonstrate another mechanism by which plants simultaneously meter out their pollen and reduce pollen theft.

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Author response: Touch-sensitive stamens enhance pollen dispersal by scaring away visitors

Han

Renner

et al. 2022

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Mobile stamens enhance pollen dispersal by scaring floral visitors away

Han

Renner

et al. 2022

Preprint

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SummaryAnimal-pollinated plants have to get pollen to a conspecific stigma while protecting it from getting eaten. We provide experimental evidence that touch-sensitive stamens function in (i) enhancing pollen export and (ii) reducing pollen loss to thieves. Stamens of Berberis and Mahonia are inserted between paired nectar glands and when touched by an insect’s tongue rapidly snap forward so that their valvate anthers press pollen on the insect’s tongue or face. We immobilized the stamens in otherwise unmodified flowers and studied pollen transfer in the field and under enclosed conditions. On flowers with immobilized stamens, the commonest bee visitor stayed up to 3.6x longer, yet removed 1.3x fewer pollen grains and deposited 2.1x fewer grains on stigmas per visit. Self-pollen from a single stamen hitting the stigma amounted to 6% of the grains received from single bee visits. Bees discarded pollen passively placed on their bodies, likely because of its berberine content; nectar has no berberine. Syrphid flies fed on both nectar and pollen, taking more when stamens were immobilized. Pollen-tracking experiments in two species showed that mobile-stamen-flowers donate pollen to many more recipients. These results demonstrate another mechanism by which plants simultaneously meter out their pollen and reduce pollen theft.HighlightsStamens that snap forward when triggered by a flower visitor may serve to meter out pollen, scare away pollen thieves, or place pollen more accurately.We tested these hypotheses by experimentally immobilizing all six stamens in numerous flowers of Berberis and Mahonia species in the field and under enclosed conditions.In flowers with immobilized stamens, the commonest bee species stayed up to 3.6x longer, yet removed 1.3x fewer pollen grains and deposited 2.1x fewer grains on stigmas per visit. Mobile stamens exported their pollen to significantly more neighboring flowers.Graphic abstractBehaviour and pollen transfer after flower visitors received a beating on the tongue or in the face by the forward-snapping stamens of Berberis. Stamens only snap forward if their filament basis is touched by an insect tongue.

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Wen-Long Han

Touch-sensitive stamens enhance pollen dispersal by scaring away visitors

Author response: Touch-sensitive stamens enhance pollen dispersal by scaring away visitors

Mobile stamens enhance pollen dispersal by scaring floral visitors away

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