Genotypic Variability of Acer negundo L. along the Trans-Siberian Railway

Pub Date : 2023-12-01 DOI:10.1134/s2075111723040185
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Abstract

The study of intraspecific variability of alien plants is crucial for revealing the patterns of their microevolution in the secondary distribution range and predicting the possibility of further dispersal and the ability to invade natural plant communities. It is still unclear how a genetically impoverished initial invasive population forms a taxon with a range exceeding the natural range of the species and, therefore, adapts to more diverse ecological and climatic conditions. Boxelder maple, Acer negundo L., is a remarkable object of study in this respect. The secondary distribution range of this North American species covers all regions of our planet excluding Antarctica. In Russia, it spread from Kaliningrad to Vladivostok, formed invasive populations in all eight Federal Districts, and was included in the TOP 100 of the most aggressive invasive species of the country. The intraspecific variability of its biomorphological characters was studied by us earlier, and the results of the study of genotypic variability are presented in this article. Invasive populations of A. negundo located along the Trans-Siberian Railway from Moscow to Vladivostok (9288 km) were examined. We isolated DNA from 38 specimens collected along the Trans-Siberian railway in Vladimir and Kostroma oblasts, the Republic of Tatarstan, Perm Territory, Novosibirsk Region, Krasnoyarsk Territory, Amur Region, and Primorskii Territory. By the ITS 1–2 nuclear DNA site, specimens of Acer negundo from the Russian part of the secondary distribution range showed very high similarity to each other, but with 100% bootstrap support differed from specimens from the natural distribution range. According to the chloroplast high-variable trnL–trnF site, the specimens were divided into two clades that weakly correlated with the geographical origin of the specimen. Separate subclades with high bootstrap support were formed by the plants (1) from Tatarstan (Kazan and Nizhnekamsk) and (2) from Perm and Novosibirsk and (3) samples from Krasnoyarsk. The haplotype network constructed at the trnL–trnF site also demonstrated the genetic specificity of the samples from Tatarstan. We hypothesized that only a few genotypes of A. negundo with a high degree of invasive activity were dispersed along the Trans-Siberian Railway (and possibly throughout all Russia). Other genotypes, including those that entered the territory of the former Russian Empire earlier, have not shown the ability to invade natural plant communities and occur rather rarely.

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西伯利亚大铁路沿线黑叶槭的基因型变异性
摘要 外来植物的种内变异性研究对于揭示其在次生分布区的微进化模式、预测进一步扩散的可能性和入侵自然植物群落的能力至关重要。目前还不清楚基因贫乏的初始入侵种群如何形成一个分布范围超过该物种自然分布范围的类群,从而适应更多样化的生态和气候条件。在这方面,黄杨枫树(Acer negundo L.)是一个值得研究的对象。这种北美树种的次生分布范围覆盖了地球上除南极洲以外的所有地区。在俄罗斯,它从加里宁格勒蔓延到符拉迪沃斯托克,在所有八个联邦区都形成了入侵种群,并被列入该国最具侵略性的入侵物种 100 强。我们早先对其生物形态特征的种内变异性进行了研究,本文介绍了基因型变异性的研究结果。我们考察了从莫斯科到符拉迪沃斯托克(9288 公里)的西伯利亚大铁路沿线的 A. negundo 入侵种群。我们从沿西伯利亚铁路在弗拉基米尔州、科斯特罗马州、鞑靼斯坦共和国、彼尔姆边疆区、新西伯利亚州、克拉斯诺亚尔斯克边疆区、阿穆尔州和滨海边疆区采集的 38 份标本中分离了 DNA。通过 ITS 1-2 核 DNA 位点,二级分布区俄罗斯部分的黑叶槭标本显示出极高的相似性,但与自然分布区的标本存在 100%的差异。根据叶绿体高变异 trnL-trnF 位点,标本被分为两个支系,这两个支系与标本的地理来源关系不大。(1)来自鞑靼斯坦(喀山和下卡姆斯克)、(2)来自彼尔姆和新西伯利亚以及(3)来自克拉斯诺亚尔斯克的植物形成了具有高引导支持的独立亚支系。在 trnL-trnF 位点构建的单倍型网络也证明了鞑靼斯坦样本的遗传特异性。我们推测,只有少数具有高度入侵活性的 A. negundo 基因型沿西伯利亚大铁路传播(也可能在整个俄罗斯)。其他基因型,包括那些较早进入前俄罗斯帝国领土的基因型,并没有显示出入侵自然植物群落的能力,而且出现得很少。
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