Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure

Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure

Floral sexual organ (stamen and pistil) movements are selective adaptations that have different functions in male-female reproduction and the evolution of flowering plants. However, the significance of stamen movements in the spatial–temporal function and separation of male and female organs has not...

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Main Authors: Aysajan Abdusalam, Reyilamu Maimaitituerxun, Halibinuer Hashan, Gulzar Abdukirim
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2021-08-01
Series:Plant Diversity
Subjects:
Floral structure
Male-female interference
Pollen removal
Self-pollen deposition
Online Access:http://www.sciencedirect.com/science/article/pii/S2468265921000536
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spelling doaj-02f303c69bd34afa90606e52e8be26822021-08-22T04:30:08ZengKeAi Communications Co., Ltd.Plant Diversity2468-26592021-08-01434308316Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closureAysajan Abdusalam0Reyilamu Maimaitituerxun1Halibinuer Hashan2Gulzar Abdukirim3College of Life and Geographic Sciences, Kashi University, Kashi, Xinjiang, 844000, China; Key Laboratory of Biological Resources and Ecology of Pamirs Plateau in Xinjiang Uygur Autonomous Region, Kashi University, Kashi, Xinjiang, 844000, China; Corresponding author. College of Life and Geographic Sciences, Kashi University, Kashi, Xinjiang, 844000, China.College of Life and Geographic Sciences, Kashi University, Kashi, Xinjiang, 844000, ChinaCollege of Life and Geographic Sciences, Kashi University, Kashi, Xinjiang, 844000, ChinaCollege of Life and Geographic Sciences, Kashi University, Kashi, Xinjiang, 844000, China; Key Laboratory of Biological Resources and Ecology of Pamirs Plateau in Xinjiang Uygur Autonomous Region, Kashi University, Kashi, Xinjiang, 844000, ChinaFloral sexual organ (stamen and pistil) movements are selective adaptations that have different functions in male-female reproduction and the evolution of flowering plants. However, the significance of stamen movements in the spatial–temporal function and separation of male and female organs has not been experimentally determined in species exhibiting floral temporal closure. The current study investigated the role of slow stamen (group-by-group) movement in male-female sexual function, and the effect of stamen movement on pollen removal, male-male and male-female interference, and mating patterns of Geranium pratense, a plant with temporal floral closure. This species uses stamen group-by-group movement and therefore anther-stigma spatial–temporal separation. Spatial separation (two whorls of stamen and pistil length) was shown to be stronger than temporal separation. We found that stamen movements to the center of the flower increase pollen removal, and the most common pollinators visited more frequently and for longer durations during the male floral stage than during the female floral stage. Petal movements increased both self-pollen deposition rate and sexual interference in G. pratense. The fruit and seed set of naturally and outcrossed pollinated flowers were more prolific than those of self-pollinated flowers. Group-by-group stamen movement, dehiscence of stamens, pistil movement, and male-female spatial–temporal functional separation of G. pratense before floral temporal closure may prevent male-female and stamen-stamen interference and pollen discounting, and may increase pollen removal and cross-pollination.http://www.sciencedirect.com/science/article/pii/S2468265921000536Floral structureMale-female interferencePollen removalSelf-pollen deposition
collection DOAJ
language English
format Article
sources DOAJ
author Aysajan Abdusalam
Reyilamu Maimaitituerxun
Halibinuer Hashan
Gulzar Abdukirim
spellingShingle Aysajan Abdusalam
Reyilamu Maimaitituerxun
Halibinuer Hashan
Gulzar Abdukirim
Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure
Plant Diversity
Floral structure
Male-female interference
Pollen removal
Self-pollen deposition
author_facet Aysajan Abdusalam
Reyilamu Maimaitituerxun
Halibinuer Hashan
Gulzar Abdukirim
author_sort Aysajan Abdusalam
title Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure
title_short Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure
title_full Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure
title_fullStr Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure
title_full_unstemmed Pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure
title_sort pollination adaptations of group-by-group stamen movement in a meadow plant with temporal floral closure
publisher KeAi Communications Co., Ltd.
series Plant Diversity
issn 2468-2659
publishDate 2021-08-01
description Floral sexual organ (stamen and pistil) movements are selective adaptations that have different functions in male-female reproduction and the evolution of flowering plants. However, the significance of stamen movements in the spatial–temporal function and separation of male and female organs has not been experimentally determined in species exhibiting floral temporal closure. The current study investigated the role of slow stamen (group-by-group) movement in male-female sexual function, and the effect of stamen movement on pollen removal, male-male and male-female interference, and mating patterns of Geranium pratense, a plant with temporal floral closure. This species uses stamen group-by-group movement and therefore anther-stigma spatial–temporal separation. Spatial separation (two whorls of stamen and pistil length) was shown to be stronger than temporal separation. We found that stamen movements to the center of the flower increase pollen removal, and the most common pollinators visited more frequently and for longer durations during the male floral stage than during the female floral stage. Petal movements increased both self-pollen deposition rate and sexual interference in G. pratense. The fruit and seed set of naturally and outcrossed pollinated flowers were more prolific than those of self-pollinated flowers. Group-by-group stamen movement, dehiscence of stamens, pistil movement, and male-female spatial–temporal functional separation of G. pratense before floral temporal closure may prevent male-female and stamen-stamen interference and pollen discounting, and may increase pollen removal and cross-pollination.
topic Floral structure
Male-female interference
Pollen removal
Self-pollen deposition
url http://www.sciencedirect.com/science/article/pii/S2468265921000536
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AT halibinuerhashan pollinationadaptationsofgroupbygroupstamenmovementinameadowplantwithtemporalfloralclosure
AT gulzarabdukirim pollinationadaptationsofgroupbygroupstamenmovementinameadowplantwithtemporalfloralclosure
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