Myrtaceae anther glands: morphology, anatomy and variation in glandular contents

IF 0.9 4区 生物学 Q4 PLANT SCIENCES
P. G. Ladd
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Abstract

Context

Most tissues of Myrtaceae plants have oil glands. The anthers of many species have an oil-containing apical gland that is larger than those in other tissues of the plant.

Aims

Representative species in the family were examined for the diversity of gland form and their oil contents.

Methods

Representative anthers were sectioned for light microscopy and scanning electron microscopy study and anthers from selected species were analysed for oil content.

Key results

The most common gland form is globular and narrowly attached to the apex of the connective, but in members of certain tribes, the gland is completely enclosed in the connective. The greatest morphological diversity is in the Chamelaucieae. Anther glands vary from plesiomorphic globular forms to glands that are larger than the anther thecae and almost completely fill the connective.

Conclusions

There are three possible functions for the glands, including the following: (1) protecting the anthers from herbivores, (2) mixing with the pollen to aid adhesion to stylar hairs on many Chamelaucineae, and (3) rewarding pollinators that use the oil–pollen mixture as food.

Implications

It is generally considered that the oils in various tissues of the Myrtaceae deter herbivores. In Myrtaceae with abundant anthers, the glands could deter flower visitors from consuming the anthers. Gland oil of the Eucalyptus and Leptospermum species examined contained α pinene as did the leaves of all species examined. The gland oil composition in Chamelaucium uncinatum and Verticordia grandis that have pollen presenters was different from that in the leaves and also different from that in the anthers of the two Verticordia species where bees collect the pollen–oil mixture for food.

桃金娘科花药腺:形态、解剖和腺体内容物的变化
背景桃金娘科植物的大多数组织都有油腺。许多种植物的花药顶端都有一个含油腺体,其体积大于植物其他组织中的腺体。目的研究桃金娘科代表性物种的腺体形态及其含油量的多样性。方法对具有代表性的花药进行切片,用光学显微镜和扫描电子显微镜进行研究,并对所选物种的花药进行含油量分析。主要结果最常见的腺体形态是球状,狭长地附着在结子的顶端,但在某些部落的成员中,腺体完全封闭在结子中。形态差异最大的是 Chamelaucieae。花药腺的形态多种多样,有的呈球状,有的比花药囊还大,几乎完全充满药隔。结论花药腺可能具有以下三种功能:(1) 保护花药免受食草动物的侵害;(2) 与花粉混合,帮助花粉附着在许多菊科植物的花柱毛上;(3) 奖励以油-花粉混合物为食物的授粉者。影响一般认为,桃金娘科植物各种组织中的油类对食草动物有威慑作用。在花药丰富的桃金娘科植物中,腺体可以阻止访花者食用花药。所研究的桉树和欧洲豹属植物的腺体油含有α蒎烯,所研究的所有植物的叶子也都含有α蒎烯。Chamelaucium uncinatum 和 Verticordia grandis 的腺油成分与叶片中的不同,也与蜜蜂采集花粉油混合物作为食物的两个 Verticordia 种类的花药中的不同。
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来源期刊
Australian Journal of Botany
Australian Journal of Botany 生物-植物科学
CiteScore
2.30
自引率
18.20%
发文量
26
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Botany is an international journal for publication of original research in plant science. We seek papers of broad interest with relevance to Southern Hemisphere ecosystems. Our scope encompasses all approaches to understanding plant biology. Australian Journal of Botany is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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