花朵朝向会影响大黄蜂在花序内移动的一致性。
Flower orientation influences the consistency of bumblebee movement within inflorescences.
作者信息
Jordan Crispin Y, Natta Marc, Harder Lawrence D
机构信息
Institute of Evolutionary Biology, The University of Edinburgh, Kings Buildings, Ashworth Laboratories, West Mains Road, Edinburgh EH9 3JT, UK
6 Bellevue Road, Edinburgh EH7 4DB, UK.
出版信息
Ann Bot. 2016 Sep;118(3):523-7. doi: 10.1093/aob/mcw132. Epub 2016 Jul 17.
BACKGROUND AND AIMS
Plant species differ greatly in the three-dimensional arrangements of their flowers (inflorescence architecture). However, the nature of selection responsible for this diversity is poorly understood. Studies that examine among-species variation suggest that inflorescence architecture affects pollinator behaviour, and so should influence plant mating. However, few studies consider the consequences of within-population architectural variation for pollinator behaviour.
METHODS
We manipulated inflorescence architecture of Delphinium glaucum to contrast bumblebee responses to normal and one-sided (secund) inflorescences.
KEY RESULTS
The 'dimensionality' of manipulated inflorescences did not affect the number of flowers that bees visited; however, bees moved upward proportionally more on secund inflorescences.
CONCLUSIONS
This study shows that realistic within-population variation in inflorescence architecture can manipulate pollinator behaviour. These results bear important consequences for plant mating success and the coordinated evolution of inflorescence architecture and floral specialization within inflorescences. These results also question why secund inflorescences are rare, for which we propose four testable explanations.
背景与目的
植物物种的花在三维排列方式(花序结构)上差异极大。然而,导致这种多样性的选择本质却鲜为人知。对物种间变异的研究表明,花序结构会影响传粉者行为,进而应会影响植物交配。然而,很少有研究考虑种群内结构变异对传粉者行为的影响。
方法
我们对翠雀花的花序结构进行了操控,以对比熊蜂对正常花序和单侧(偏向一侧的)花序的反应。
主要结果
被操控的花序的“维度”并未影响蜜蜂访问的花朵数量;然而,蜜蜂在偏向一侧的花序上向上移动的比例更大。
结论
本研究表明,花序结构在种群内的实际变异能够操控传粉者行为。这些结果对植物交配成功以及花序结构与花序内花部特化的协同进化具有重要意义。这些结果还对偏向一侧的花序为何罕见提出了疑问,对此我们提出了四种可检验的解释。
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