Flower morphological differentiation and plant-pollinator interactions among sympatric Aframomum species (Zingiberaceae) with floral trumpet type in the tropical African rainforest

IF 1.1 4区生物学 Q3 PLANT SCIENCES

Plant Ecology and Evolution Pub Date : 2021-11-23 DOI:10.5091/plecevo.2021.1860

Elie Chrisnel Nzigou Doubindou, A. Ley

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引用次数: 0

Abstract

Background and aims – Diversification in plant-pollinator interactions based on floral diversity is potentially a mechanism of coexistence in angiosperms. However, besides high floral diversity, some genera seemingly exhibit the same floral type in many of their species. This contradicts some expectations of competitive exclusion. We thus tested on a finer flower morphological scale whether five sympatric Aframomum species (61 spp., Zingiberaceae) in southeastern Gabon exhibiting the same general floral type (trumpet) were differentiated, and whether this resulted in different “pollinator niches”.Material and methods – We carried out a detailed survey measuring 18 flower morphological parameters as well as nectar volume (μl) and sugar concentration (% Brix) on five flowers per species and locality. Furthermore, we observed inflorescence phenology and pollinator activity from 8 am to 4 pm for 12 to 50 hours per species and conducted pollinator exclusion experiments.Key results – This study proves fine-scale flower morphological and resource differentiation within the trumpet floral type. Pollination-relevant parts of the flowers, however, remain constant across species. Our pollinator observations reveal the same broad bee pollinator spectrum for all observed simultaneously flowering sympatric species.Conclusion – As we could not detect a pollinator-based differentiation in the studied sympatric Aframomum species we assume that species boundaries developed randomly by genetic drift during geographic isolation in the past. The trumpet floral type and its pollinator guild, however, were maintained due to similar selection pressures in comparable habitats during isolation and are potentially an advantage for increased pollinator attraction through co-flowering.

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热带非洲雨林中具有花喇叭型的同域非洲属植物（姜科）的花形态分化和植物与传粉昆虫的相互作用

背景与目的-植物与传粉者相互作用的多样性是被子植物植物间共存的潜在机制。然而，除了花的高度多样性外，有些属在其许多种中似乎表现出相同的花类型。这与竞争性排斥的一些预期相矛盾。因此，我们在更精细的花形态尺度上测试了加蓬东南部具有相同花型(喇叭)的5种同域阿夫拉蒙属植物(61种，姜科)是否有分化，以及这是否导致了不同的“传粉者生态位”。材料和方法-我们对每个物种和地区的5种花进行了详细的调查，测量了18种花的形态参数以及花蜜量(μl)和糖浓度(% Brix)。此外，我们从上午8点到下午4点对每个物种的花序物候和传粉者活动进行了12 ~ 50小时的观察，并进行了传粉者排斥实验。主要结果:本研究证实了小号花类型内的细尺度花形态和资源分化。然而，花中与授粉有关的部分在不同物种之间保持不变。我们对传粉者的观察显示，所有观察到的同时开花的同域物种的传粉者光谱都是相同的。结论:由于在同域分布的阿夫拉蒙属植物中未发现基于传粉者的分化，我们假设在过去的地理隔离中，物种边界是通过遗传漂变随机形成的。然而，喇叭花类型及其传粉者群体在隔离期间由于类似的选择压力而得以保持，并且可能通过共花增加传粉者的吸引力。

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来源期刊

Plant Ecology and Evolution PLANT SCIENCES-

CiteScore

2.20

自引率

9.10%

发文量

审稿时长

>12 weeks

期刊介绍： Plant Ecology and Evolution is an international peer-reviewed journal devoted to ecology, phylogenetics and systematics of all ‘plant’ groups in the traditional sense (including algae, cyanobacteria, fungi, myxomycetes), also covering related fields. The journal is published by Meise Botanic Garden and the Royal Botanical Society of Belgium.