Divergence in Elymus sibiricus is related to geography and climate oscillation: A new look from pan‐chloroplast genome data

IF 3.7
Yi Xiong, Yan‐Li Xiong, Xue‐Jie Jia, Jun‐Ming Zhao, Li‐Jun Yan, Li‐Na Sha, Lin Liu, Qing‐Qing Yu, Xiong Lei, Shi‐Qie Bai, Xiao Ma
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Abstract

Abstract Quaternary glacial climate oscillation and geographical isolation have significantly influenced the geographic distribution pattern and lineage evolution history of species. However, understanding how these factors specifically impact the genealogical structure of dominant Gramineous species in the Qinghai–Tibet Plateau (QTP) remains a subject of investigation. Elymus sibiricus L. (Gramineae), indigenous to the QTP and widely distributed in Eurasia, exhibits remarkable environmental adaptation and phenotypic diversity, making it an ideal candidate for phylogeographic studies. Based on the analysis of 175 complete chloroplast genome sequences, our results indicated that the ancestors of E. sibiricus originated from the QTP and underwent a complex migration history. After the speciation of E. sibiricus , several geo‐groups exhibited independent differentiation, showing minimal gene flow among them. The current phylogeographic patterns of E. sibiricus are a result of frequent climate alternations and the cold climate during the Quaternary glacial, as well as the presence of several geographical barriers that have restricted the gene flow among different geo‐groups. Our research has revealed for the first time that E. sibiricus has a multilineage origin, and its maternal donors are not limited to a single species. Furthermore, the high quality and mapping depth of the variant file provided reliable data for analyzing the patterns based on raw sequencing data. These findings enhance our understanding of the relationship between plant differentiation and climatic and geographical factors of Eurasia.
西伯利亚羊草的分化与地理和气候振荡有关:来自全叶绿体基因组数据的新认识
第四纪冰川气候振荡和地理隔离对物种的地理分布格局和谱系演化史产生了重大影响。然而,这些因素如何影响青藏高原禾本科优势种的家谱结构仍有待进一步研究。禾本科羊草(Elymus sibiricus L., Gramineae)是青藏高原的土生植物,广泛分布于欧亚大陆,具有显著的环境适应性和表型多样性,是系统地理学研究的理想对象。基于175个完整的叶绿体基因组序列分析,我们的研究结果表明,西伯利亚家鼠的祖先起源于QTP,并经历了一个复杂的迁徙历史。在西伯利亚大鼠形成物种后,几个地理类群表现出独立的分化,它们之间的基因流动最小。第四纪冰期频繁的气候变化和寒冷的气候,以及限制不同地理类群间基因流动的若干地理障碍,共同导致了西伯利亚野鼠目前的系统地理格局。我们的研究首次揭示了西伯利亚伊蚊具有多系起源,其母系供体并不局限于单一物种。此外,变体文件的高质量和映射深度为基于原始测序数据的模式分析提供了可靠的数据。这些发现增强了我们对欧亚大陆植物分化与气候地理因素关系的认识。
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