Pollinator-mediated selection on nectary depth in Urophysa (Ranunculaceae)

IF 0.4 Q4 PLANT SCIENCES
Li Sun, Yi Ren
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引用次数: 1

Abstract

Pollinator-mediated selection has been considered to be one of major factors that shapes the evolution of flowers by matching flowers to their pollinators on traits associated with attraction of pollinators or mechanical fit. The match between nectary depth, which means the length of the tubular structure formed in many plant species to hide the nectary and store nectar, and the mouthparts length of its major nectar-foraging pollinators has been repeatedly demonstrated as an example, because this trait have shown a positive relationship with pollen removal and deposition in experimental manipulations in many synpetalous plants and orchid family. However, it remains unclear how pollinator-mediated selection affects the evolution of nectary depth in choripetalous and actinomorphic flowers, such as most flowers in Ranunculaceae. Here we investigated floral characteristics and pollinators in Urophysa rockii Ulbr. and U. henryi (Oliv.) Ulbr., as they are quite the same in habitat, anthesis and morphological characteristics except for nectary depth. Both of these species have flat white sepals and yellow petals each has a spatial structure at the base that contains nectar, but the nectary depth of U. rockii is deeper than that of U. henryi, for the former petals are shortly spurred about 3-4 mm in length while the latter are saccate. Meanwhile, the flowers of both species are most frequently visited by Apis cerana, the Chinese honey bee, and one or two species of hover fly, Syrphidae, but only A. cerana was able to forage nectar in U. rockii while all visitors can forage nectar in U. henryi. A. cerana always lands on the center of a flower and projects its proboscis into each petal when its thorax touches anthers and stigmas. The difference between two species is that U. rockii was visited by A. cerana with a higher frequency, longer visiting time per flower and more activities on flowers than U. henryi. Besides, the petal width and its nectary depth of U. rockii closely match the width of the labrum and the effective mouthparts length of A. cerana, respectively. Therefore, we concluded that pollinator-mediated selection played a vital role in the evolution of nectary depth in Urophysa, with deeper nectaries favoured through reproductive fitness, because this trait affects flower-pollinator interaction and therefore pollen deposition. We also detected deeper nectaries favoured because this trait also affects nectar accumulation as well as deeper nectaries can prevent inefficiency visitors from foraging nectar effectively.
传粉媒介对毛茛科植物花蜜深度的影响
传粉媒介的选择被认为是影响花进化的主要因素之一,它通过与传粉媒介的吸引力或机械契合相关的性状来匹配花与传粉媒介。蜜腺深度,即许多植物为隐藏蜜腺和储存花蜜而形成的管状结构的长度,与其主要采蜜传粉媒介的口器长度之间的匹配已被反复证明为例,因为在许多共瓣植物和兰花科的实验操作中,这一特性与花粉的去除和沉积表现出正相关。然而,传粉媒介的选择如何影响毛茛科和放线形花(如大多数毛茛科花)的蜜深进化尚不清楚。本文研究了石竹(Urophysa rockkii Ulbr)的花系特征和传粉媒介。和u·亨利(奥利弗)Ulbr。,除了蜜腺深度不同外,它们的生境、花期和形态特征都很相似。这两种植物都有扁平的白色萼片和黄色的花瓣,每个物种的底部都有一个含有花蜜的空间结构,但洛氏菊的花蜜深度比亨利菊深,因为前者的花瓣有大约3-4毫米长的短刺,而后者是囊状的。与此同时,这两种植物的花朵都是中国蜜蜂和一种或两种飞蝇的最常光顾的,但只有蜜蜂能在美国洛基采蜜,而所有的游客都能在美国凤尾采蜜。金凤花总是落在花的中心,当它的胸部接触花药和柱头时,它的喙会伸入每片花瓣。两种昆虫的不同之处是,中国蜜蜂的访花频率、访花时间和对花的活动均高于亨利蜜蜂。此外,罗氏花的花瓣宽度和蜜腺深度与蜜蜂唇部宽度和有效口器长度非常接近。因此,我们得出结论,传粉媒介的选择在尿壶虫蜜腺深度的进化中起着至关重要的作用,较深的蜜腺通过生殖适应性得到青睐,因为这一性状影响花与传粉媒介的相互作用,从而影响花粉沉积。我们还发现更深的蜜腺受到青睐,因为这一特性也影响了花蜜的积累,而且更深的蜜腺可以有效地防止效率低下的来客觅食花蜜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Modern Phytomorphology
Modern Phytomorphology PLANT SCIENCES-
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33.30%
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