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

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...

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Published inJournal of systematics and evolution : JSE Vol. 62; no. 4; pp. 794 - 808
Main Authors Xiong, Yi, Xiong, Yan‐Li, Jia, Xue‐Jie, Zhao, Jun‐Ming, Yan, Li‐Jun, Sha, Li‐Na, Liu, Lin, Yu, Qing‐Qing, Lei, Xiong, Bai, Shi‐Qie, Ma, Xiao
Format Journal Article
LanguageEnglish
Published Beijing Wiley Subscription Services, Inc 01.07.2024
Subjects
Alternations
Chloroplasts
Cold flow
Data analysis
Differentiation
Distribution patterns
Elymus sibiricus
Eurasia
Gene flow
Gene sequencing
Genomes
Genomic analysis
geographical barrier
Geographical distribution
Geographical isolation
Geography
Glacial periods
multilineage origin
Phenotypic variations
Phylogeography
Quaternary
Quaternary glaciation
Speciation
Eurasia
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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. Characterization of the pan‐chloroplast genomes of Elymus sibiricus endemic to Qinghai–Tibet Plateau (QTP) was performed. Ancestors of E. sibiricus (with the genome constitution of StStHH) from different origins may be different, and the St genome is of multiline origin. Elymus sibiricus originated from the QTP and underwent a complex migration process during the Quaternary ice age.
AbstractList 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.
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.
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. Characterization of the pan‐chloroplast genomes of Elymus sibiricus endemic to Qinghai–Tibet Plateau (QTP) was performed. Ancestors of E. sibiricus (with the genome constitution of StStHH) from different origins may be different, and the St genome is of multiline origin. Elymus sibiricus originated from the QTP and underwent a complex migration process during the Quaternary ice age.
Author Xiong, Yi
Xiong, Yan‐Li
Sha, Li‐Na
Yu, Qing‐Qing
Bai, Shi‐Qie
Zhao, Jun‐Ming
Jia, Xue‐Jie
Lei, Xiong
Yan, Li‐Jun
Liu, Lin
Ma, Xiao
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  surname: Ma
  fullname: Ma, Xiao
  email: maroar@126.com
  organization: Sichuan Agricultural University
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Snippet Quaternary glacial climate oscillation and geographical isolation have significantly influenced the geographic distribution pattern and lineage evolution...
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SubjectTerms Alternations
Chloroplasts
Cold flow
Data analysis
Differentiation
Distribution patterns
Elymus sibiricus
Eurasia
Gene flow
Gene sequencing
Genomes
Genomic analysis
geographical barrier
Geographical distribution
Geographical isolation
Geography
Glacial periods
multilineage origin
Phenotypic variations
Phylogeography
Quaternary
Quaternary glaciation
Speciation
Title Divergence in Elymus sibiricus is related to geography and climate oscillation: A new look from pan‐chloroplast genome data
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjse.13020
https://www.proquest.com/docview/3080021140
Volume 62
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