Molecular analyses support revision of species diversity of the moss genus Bryum in Antarctica

IF 2.3 2区 生物学 Q2 PLANT SCIENCES
N Cannone, I Vanetti, P Convey, L G Sancho, S Zaccara
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Abstract

Bryum is a moss genus that is widely distributed across the planet. Many of its species are characterized by large phenotypic and morphological plasticity, generating uncertainty in species identification exclusively based on morphological characteristics. In Antarctica, the extreme and harsh environmental conditions are further likely to promote intra-specific morphological variation, leading to complexity in the taxonomic attribution of Bryum species. In this study, we apply molecular phylogenetic analyses to assist in developing accurate species identification of B. pseudotriquetrum and two other relatively abundant Bryum species (B. archangelicum and B. pallescens) currently reported as Antarctic species. A total of 51 Bryum samples collected in Antarctica (22) and from all other continents (29) were sequenced for ITS nrDNA and rps4 cpDNA regions, using markers widely used in moss phylogenetic studies. Phylogenetic trees were constructed including ITS (23) and rps4 (34) sequences representing the three more frequent of the seven Bryum species currently reported from Antarctica as well as several other Bryum species and related genera, incorporating all sequence data available in the literature and accessible databases. The molecular analyses provide strong support for a match between morphological and molecular attribution of specimens identified as B. pseudotriquetrum. The data also provide evidence of currently unrecognized Bryum diversity in Antarctica, with the identification of one individual of B. uliginosum. However, the analyses suggest that all Antarctic specimens currently assigned to other Bryum species are morphological variants of B. pseudotriquetrum. The integration of molecular and morphological analyses supports the presence of B. pseudotriquetrum as the most widely distributed species of the genus in Antarctica and of B. uliginosum with a much more restricted distribution (South Sandwich Islands). Our data suggest that further investigation is required of B. archangelicum and B. pallescens in other continents globally, as the identity of none of the herbarium specimens examined in this study could be confirmed with molecular data.
分子分析支持对南极洲苔藓Bryum属物种多样性的修订
Bryum 是一种苔藓属植物,广泛分布于全球各地。它的许多物种都具有很大的表型和形态可塑性,这给仅根据形态特征进行物种鉴定带来了不确定性。在南极洲,极端恶劣的环境条件更有可能促进种内形态变异,从而导致 Bryum 物种分类归属的复杂性。在本研究中,我们应用分子系统发育分析来帮助准确鉴定假三叶草(B. pseudotriquetrum)和目前报道为南极物种的另外两种相对丰富的毛蕊花属植物(B. archangelicum和B. pallescens)。利用苔藓系统发育研究中广泛使用的标记,对在南极洲(22 个)和其他各大洲(29 个)采集的 51 个 Bryum 样本的 ITS nrDNA 和 rps4 cpDNA 区域进行了测序。构建的系统发生树包括 ITS(23)和 rps4(34)序列,代表了目前报告的南极洲 7 个 Bryum 物种中较为常见的 3 个物种,以及其他几个 Bryum 物种和相关属,并纳入了文献和可访问数据库中的所有序列数据。分子分析有力地支持了被鉴定为 B. pseudotriquetrum 的标本在形态学和分子归属上的匹配。数据还提供了南极洲目前尚未认识到的 Bryum 多样性的证据,鉴定出一个 B. uliginosum 个体。然而,分析表明,目前归属于其他 Bryum 种类的所有南极标本都是 B. pseudotriquetrum 的形态变体。分子和形态分析的综合结果表明,Bryum pseudotriquetrum 是该属在南极洲分布最广的物种,而 B. uliginosum 的分布则要局限得多(南桑威奇群岛)。我们的数据表明,还需要对全球其他大洲的 B. archangelicum 和 B. pallescens 进行进一步调查,因为本研究中没有一个标本馆标本的身份可以通过分子数据得到确认。
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来源期刊
CiteScore
5.70
自引率
8.30%
发文量
54
审稿时长
3.5 months
期刊介绍: The Botanical Journal of the Linnean Society publishes original papers on systematic and evolutionary botany and comparative studies of both living and fossil plants. Review papers are also welcomed which integrate fields such as cytology, morphogenesis, palynology and phytochemistry into a taxonomic framework. The Journal will only publish new taxa in exceptional circumstances or as part of larger monographic or phylogenetic revisions.
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