Evolution of Angiosperm Pollen: 8. Lamiids1

IF 1.1 3区生物学 Q3 PLANT SCIENCES

Annals of the Missouri Botanical Garden Pub Date : 2020-09-30 DOI:10.3417/2020500

Li-Er Yang, Lu Lu, K. Burgess, Hong Wang, De‐Zhu Li

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引用次数: 7

Abstract

Abstract Lamiids, a clade composed of approximately 15% of all flowering plants, contains more than 50,000 species dispersed across 49 families and eight orders (APG IV, 2016). This paper is the eighth in a series that analyzes pollen characters across angiosperms. We reconstructed a maximum likelihood tree based on the most recent phylogenetic studies for the Lamiids, comprising 150 terminal genera (including six outgroups) and covering all eight orders and 49 families within the clade. To illustrate pollen diversity across the Lamiids, pollen grains from 22 species (22 genera in 14 families) were imaged under light, scanning, and transmission electron microscopy. Eighteen pollen characters that were documented from previous publications, websites, and our new observations were coded and optimized onto the reconstructed phylogenetic tree using Fitch parsimony, maximum likelihood, and hierarchical Bayesian analysis. Pollen morphology of the Lamiids is highly diverse, particularly in shape class, pollen size, aperture number, endoaperture shape, supratectal element shape, and tectum sculpture. In addition, some genera show relatively high infrageneric pollen variation within the Lamiids: i.e., Coffea L., Jacquemontia Choisy, Justicia L., Pedicularis L., Psychotria L. nom. cons., Sesamum L., Stachytarpheta Vahl, and Veronica L. The plesiomorphic states for 16 pollen characters were inferred unambiguously, and 10 of them displayed consistent plesiomorphic states under all optimization methods. Seventy-one lineages at or above the family level are characterized by pollen character state transitions. We identified diagnostic character states for monophyletic clades and explored palynological evidence to shed light on unresolved relationships. For example, palynological evidence supports the monophyly of Garryales and Metteniusaceae, and sister relationships between Icacinaceae and Oncothecaceae, as well as between Vahliales and Solanales. The evolutionary patterns of pollen morphology found in this study reconfirm several previously postulated evolutionary trends, which include an increase in aperture number, a transition from equatorially arranged apertures to globally distributed ones, and an increase in exine ornamentation complexity. Furthermore, there is a significant correlation between pollen characters and a number of ecological factors, e.g., pollen size and pollination type, pollen ornamentation and pollination type, and shape class and plant growth form. Our results provide insight into the ecological, environmental, and evolutionary mechanisms driving pollen character state changes in the Lamiids.

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被子植物花粉的进化：8。Lamiids1

摘要Lamiids是一个由大约15%的开花植物组成的分支，包含50000多个物种，分布在49个科和8个目（APG IV，2016）。这篇论文是分析被子植物花粉特征系列的第八篇。我们根据Lamiids的最新系统发育研究重建了一个最大似然树，包括150个末端属（包括6个外类群），覆盖了该分支内的所有8个目和49个科。为了说明Lamiids的花粉多样性，在光、扫描和透射电子显微镜下对来自14科22属22种的花粉粒进行了成像。使用Fitch简约、最大似然和层次贝叶斯分析，将以前的出版物、网站和我们的新观察结果中记录的18个花粉特征编码并优化到重建的系统发育树上。Lamiids的花粉形态高度多样，特别是在形状类别、花粉大小、孔数、孔内形状、顶盖上元素形状和顶盖雕塑方面。此外，一些属在Lamiids中表现出相对较高的属下花粉变异：即Coffea L.、Jacquemontia Choisy、Justicia L.、Pedicularis L.、Psychotria L.nom。缺点。，Sesamum L.、Stachytarpheta Vahl和Veronica L.对16个花粉性状进行了明确的同源性推断，其中10个性状在所有优化方法下都表现出一致的同源性。71个家族级以上谱系具有花粉性状状态转换的特征。我们确定了单系分支的诊断特征状态，并探索了孢粉学证据，以阐明尚未解决的关系。例如，孢粉学证据支持Garryales和Metteniusaceae的单系性，以及Icacinaceae和Oncotheceae之间以及Vahliales和Solanales之间的姐妹关系。这项研究中发现的花粉形态的进化模式再次证实了之前假设的几个进化趋势，包括孔径数量的增加、从等距排列的孔径向全球分布的孔径的转变，以及外壁装饰复杂性的增加。此外，花粉性状与许多生态因素之间存在显著相关性，如花粉大小和授粉类型、花粉纹饰和授粉类型以及形状类别和植物生长形式。我们的研究结果深入了解了驱动Lamiids花粉性状状态变化的生态、环境和进化机制。

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来源期刊

Annals of the Missouri Botanical Garden 生物-植物科学

CiteScore

3.60

自引率

0.00%

发文量

期刊介绍： The Annals of the Missouri Botanical Garden is a quarterly international journal primarily devoted to systematic botany and evolutionary biology. We encourage submissions of original papers dealing with significant advances in the taxonomy, phylogeny, biogeography, paleobiology, and evolution of plants, and in conservation genetics and biology, restoration ecology, and ethnobiology, using morphological and/or molecular characters, field observations, and/or database information. We also welcome reviews and papers on conceptual issues and new methodologies in systematics. Important floristic works will also be considered. Symposium proceedings discussing a broader range of topical biological subjects are also published, typically once a year. All manuscripts are peer-reviewed by qualified and independent reviewers.