High-mountain phylogeography in the Balkan Peninsula: isolation pattern in a species of alpine siliceous grasslands and its possible background

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Michał Ronikier, Nevena Kuzmanović, Dmitar Lakušić, Ivana Stevanoski, Zoran Nikolov, Niklaus E. Zimmermann
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引用次数: 1

Abstract

Although the Balkan Peninsula belongs to the most mountainous regions of Europe, phylogeographic structure of its alpine flora remains insufficiently understood, especially for species distributed both in the western and eastern parts of the Peninsula. We analyzed Campanula orbelica, a Balkan endemic typical of high-mountain siliceous grasslands, based on the population genetic structure, climatic niche modeling at the species- and intraspecific level, and niche hindcasting back to the Last Glacial Maximum (LGM; 20 kya). Our data reveal a clear phylogeographic pattern with three geographically coherent genetic groups: (i) the most divergent and spatially restricted lineage of the Pirin mountains (east), (ii) neighboring Rila mountains and other eastern Balkan massifs (Rhodopes, Stara Planina, Vitoša), and (iii) the most geographically disjunct mountains of the Scardo-Pindhic range (Šar Planina and Korab) in the west. This pattern indicates multiple refugia and isolated evolutionary centers within the Balkan Peninsula mountains, with the eastern part of the range as likely ancestral area, and an early dispersion into the western region, which formed the main geographical disjunction. The genetic divergence was only partly correlated with geographical isolation, clear dispersal barriers, or climatic niche shifts, suggesting contrasting isolation/dispersal dynamics in various parts of the range. Climatic niche overlap was low among eastern vs. western groups, which correlates with the longest spatial distance and significant genetic divergence, while niche characteristic of the Pirin lineage was a subset of the adjacent Rila lineage niche. High genetic divergence of the Pirin populations was also not correlated with persistent gaps in potential distributions but hypothetically may have been triggered by diversified (limestone/silicate) bedrock conditions. Our results highlight the need for high-mountain phylogeographic surveys in the eastern part of the Balkan Peninsula, to assess the biogeographical relevance of isolation patterns and definition of evolutionarily important units in the high-mountain flora.

Abstract Image

巴尔干半岛高山系统地理学:一种高山硅质草原的孤立模式及其可能背景
尽管巴尔干半岛属于欧洲最多山的地区,但对其高山植物群的系统地理结构仍知之甚少,尤其是分布在半岛西部和东部的物种。我们根据种群遗传结构、物种和种内水平的气候生态位建模,以及最后一次冰川盛期(LGM;20 kya)的生态位预测,分析了典型的高山硅质草原巴尔干特有的桔梗。我们的数据揭示了一个清晰的系统地理学模式,有三个地理上一致的遗传群:(i)皮林山脉(东部)最具分歧和空间限制的谱系,(ii)邻近的里拉山脉和其他东巴尔干地块(Rhodopes、Stara Planina、Vitoša),以及(iii)西部Scardo-Pindhic山脉(Šar Planina和Korab)地理上最不连贯的山脉。这种模式表明巴尔干半岛山脉内有多个避难所和孤立的进化中心,该山脉的东部可能是祖先地区,并且早期分散到西部地区,这形成了主要的地理脱节。遗传差异仅与地理隔离、明显的扩散障碍或气候生态位变化部分相关,这表明该地区不同地区的隔离/扩散动态不同。气候生态位重叠在东部和西部群体中较低,这与最长的空间距离和显著的遗传差异有关,而皮林谱系的生态位特征是相邻Rila谱系生态位的子集。Pirin种群的高遗传差异也与潜在分布的持续差距无关,但假设可能是由多样化的(石灰岩/硅酸盐)基岩条件引发的。我们的研究结果强调了在巴尔干半岛东部进行高山系统地理学调查的必要性,以评估高山植物群中隔离模式的生物地理学相关性和进化上重要单元的定义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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