Spatial genetic patterns of the medicinal and edible shrub Lycium ruthenicum (Solanaceae) in arid Xinjiang, China

Climatic fluctuations and aridification have combined with the environmental heterogeneity between north and south Xinjiang to shape the spatial genetic structure and demographic history of desert species in Xinjiang, China. Lycium ruthenicum offers a unique opportunity for surveying the spatial gen...

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Bibliographic Details
Published in:Tree genetics & genomes 2021-04, Vol.17 (2), Article 22
Main Authors: Wang, ChunCheng, Ma, SongMei, Sun, FangFang, Wei, Bo, Nie, YingBin
Format: Article
Language:English
Subjects:
Aridification
Aridity
Biomedical and Life Sciences
Biotechnology
Cost analysis
Demographics
Deserts
Divergence
Environmental effects
Forestry
Genetic analysis
Genetic diversity
Genetic structure
Geographical distribution
Haplotypes
Heterogeneity
Life Sciences
Lycium ruthenicum
Mountains
Original Article
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Pleistocene
Population differentiation
Populations
Refugia
Species
Tree Biology
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Summary:Climatic fluctuations and aridification have combined with the environmental heterogeneity between north and south Xinjiang to shape the spatial genetic structure and demographic history of desert species in Xinjiang, China. Lycium ruthenicum offers a unique opportunity for surveying the spatial genetic structure, evolutionary history, and effect of environmental heterogeneity on local adaption and population divergence. Three cpDNA loci ( psb A– trn H, psb K– psb I, and trn V) were sequenced for 238 individuals from 21 populations across the species range in Xinjiang. Median-joining networks, principal coordinate analyses (PCoA), BEAST analysis, species distribution models (SDMs), and least-cost path (LCP) analysis were integrated to investigate the spatial genetic patterns and demographic history of the species. The 21 haplotypes identified formed two clusters, corresponding to northern and southern populations according to the PCoA and median-joining network. BEAST analysis indicated the genetic divergence between the northern and southern populations began in the middle to late Pleistocene. Increased aridity may have triggered population differentiation and fragmentation; the expansions of the Gurbantunggut and Taklamakan Deserts and uplift of the Tianshan Mountains likely further isolated northern from southern populations. High levels of diversity and unique haplotypes were identified in the populations from the north slope of the Tianshan Mountains and the northwestern and southwestern Tarim Basin, which likely served as glacial refugia for the northern and southern groups, respectively. The distribution of genetic variation, SDMs, and LCP analysis indicate L. ruthenicum expanded from refugia along the edge of the Gurbantunggut and Taklamakan Deserts at the end of the last glacial maximum.
ISSN:1614-2942
1614-2950
DOI:10.1007/s11295-020-01488-2