Intraspecific differentiation of Lindera obtusiloba as revealed by comparative plastomic and evolutionary analyses

Lindera obtusiloba Blume is the northernmost tree species in the family Lauraceae, and it is a key species in understanding the evolutionary history of this family. The species of L. obtusiloba in East Asia has diverged into the Northern and Southern populations, which are geographically separated b...

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Bibliographic Details
Published in:Ecology and evolution 2024-03, Vol.14 (3), p.e11119-n/a
Main Authors: Tian, Xiangyu, Guo, Jia, Song, Yu, Yu, Qunfei, Liu, Chao, Fu, Zhixi, Shi, Yuhua, Shao, Yizhen, Yuan, Zhiliang
Format: Article
Language:English
Subjects:
Bats
Chloroplasts
complete chloroplast genomes
Evolution
Evolutionary genetics
Gene flow
Gene order
Genomes
Geology
intraspecific diversity
Li, Yang
Lindera
Lindera obtusiloba
Morphology
Photosynthesis
phylogenetic analysis
Phylogenetics
Phylogeny
Plant species
Plastomes
Population
Populations
Positive selection
Species
Taxonomy
Variability
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Summary:Lindera obtusiloba Blume is the northernmost tree species in the family Lauraceae, and it is a key species in understanding the evolutionary history of this family. The species of L. obtusiloba in East Asia has diverged into the Northern and Southern populations, which are geographically separated by an arid belt. Though the morphological differences between populations have been observed and well documented, intraspecific variations at the plastomic level have not been systematically investigated to date. Here, ten chloroplast genomes of L. obtusiloba individuals were sequenced and analyzed along with three publicly available plastomes. Comparative plastomic analysis suggests that both the Northern and the Southern populations share similar overall structure, gene order, and GC content in their plastomes although the size of the plasome and the level of intraspecific variability do vary between the two populations. The Northern have relatively larger plastomes while the Southern population possesses higher intraspecific variability, which could be attributed to the complexity of the geological environments in the South. Phylogenomic analyses also support the split of the Northern and Southern clades among L. obtusiloba individuals. However, there is no obvious species boundary between var. obtusiloba and var. heterophylla in the Southern population, indicating that gene flow could still occur between these two varieties, and this could be used as a good example of reticulate evolution. It is also found that a few photosynthesis‐related genes are under positive selection, which is mainly related to the geological and environmental differences between the Northern and the Southern regions. Our results provide a reference for phylogenetic analysis within species and suggest that phylogenomic analyses with a sufficient number of nuclear and chloroplast genomic target loci from widely distributed individuals could provide a deeper understanding of the population evolution of the widespread species. Lindera obtusiloba in East Asia has diverged into the Northern and Southern populations, which are geographically separated by an arid belt. Here, ten chloroplast genomes of L. obtusiloba species were sequenced and analyzed along with three publicly available plastomes support the split of the Northern and the Southern clades and found a fewer photosynthesis‐related genes were under positive selection, which mainly related to the difference geological environments b
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.11119