Is chiropterophily an evolutionary dead end? A phylogenetic test in the pantropical genus Parkia (Leguminosae, Caesalpinioideae, mimosoid clade)

IF 1.1 4区 生物学 Q3 PLANT SCIENCES
L.C. Oliveira, D. Rodrigues, H. C. Hopkins, Guthieri Teixeira Colombo, M. Hopkins
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引用次数: 1

Abstract

Background and aims – Pollination systems often reflect adaptations to specific groups of pollinators, and these morphological specialisations have been important in the diversification of the angiosperms. Here, we study the evolution of the capitulum and pollination system in the pantropical genus Parkia, which comprises 35 species of trees distributed largely in the forests of South and Central America, Africa, Madagascar, and the Indo-Pacific. The flowers are grouped into capitula that are composed of one, two, or three distinct morphological types, and are principally pollinated either by insects or by bats. Material and methods – Using BEAST, we estimated the ages of nodes in a phylogeny based on four chloroplast regions (matK, trnL, psbA-trnH, and rps16-trnQ) and the nuclear region ITS/18S/26S. This analysis also enabled us to reconstruct the ancestral state of the capitulum and hence infer the ancestral pollination system. Euclidean distance-based cluster analysis was performed to determine which characters are consistently related to a specific pollination system.Key results – Our results indicate that the ancestral capitulum in the genus had three types of flowers and a morphology associated with bat-pollination in both the Paleotropics and Neotropics. In one derived Neotropical clade, the number of floral types in each capitulum was reduced to two (capitulum also bat-pollinated) or one (insect-pollinated). Thus, entomophily, as seen in some Neotropical species of Parkia, has been derived from a bat-pollinated ancestor. Cluster analysis showed that the floral characters were mostly consistent with pollination systems.Conclusion – Chiropterophily is not an evolutionary dead end in Parkia because during the evolutionary history of the genus there has been at least one transition to entomophily. Parkia provides a unique example of evolutionary transitions from chiropterophily to entomophily in a pantropical genus of trees.
亲脊椎是进化的死胡同吗?泛热带植物Parkia属的系统发育试验(豆科,Caesalpioideae,含羞草分支)
背景和目的——授粉系统通常反映出对特定传粉群体的适应,这些形态专门化在被子植物的多样化中起着重要作用。在这里,我们研究了泛热带柏属的头状花序和授粉系统的进化,该属由35种树木组成,主要分布在南美洲和中美洲、非洲、马达加斯加和印度-太平洋的森林中。花分为头状花序,由一种、两种或三种不同的形态类型组成,主要由昆虫或蝙蝠授粉。材料和方法-使用BEAST,我们根据四个叶绿体区域(matK、trnL、psbA-trnH和rps16-trnQ)和核区域ITS/18S/26S估计了系统发育中节点的年龄。这一分析也使我们能够重建小头的祖先状态,从而推断祖先授粉系统。进行基于欧几里得距离的聚类分析,以确定哪些性状与特定授粉系统一致相关。关键结果——我们的结果表明,该属的祖先头状花序有三种类型的花,其形态与古热带和新热带蝙蝠授粉有关。在一个衍生的新热带分支中,每个头状花序的花型数量减少到两个(头状花序也是蝙蝠授粉的)或一个(昆虫授粉的)。因此,正如在一些新热带物种帕基亚所看到的那样,昆虫学来源于蝙蝠授粉的祖先。聚类分析表明,花的性状与授粉系统基本一致。结论:亲翼手目在帕基亚并不是进化的死胡同,因为在该属的进化史上,至少有一次向昆虫学的转变。Parkia提供了一个独特的例子,说明在一个泛热带属的树木中,从亲手性到昆虫学的进化转变。
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来源期刊
Plant Ecology and Evolution
Plant Ecology and Evolution PLANT SCIENCES-
CiteScore
2.20
自引率
9.10%
发文量
27
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.
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