Spatial Genetic Structure of Prunus mongolica in Arid Northwestern China Based on RAD Sequencing Data

The extensive range of sand deserts, gravel deserts, and recent human activities have shaped habitat fragmentation of relict and endangered plants in arid northwestern China. Prunus mongolica is a relict and endangered shrub that is mainly distributed in the study area. In the present study, populat...

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Bibliographic Details
Published in:Diversity (Basel) 2021-08, Vol.13 (8), p.397
Main Authors: Zhang, Hong-Xiang, Wang, Qian, Wen, Zhi-Bin
Format: Article
Language:English
Subjects:
Aridity
Conservation
conservation genetics
Corridors
Deserts
Divergence
Endangered & extinct species
endangered plant
Endangered plants
Endangered species
Fragmentation
Gene flow
Genetic diversity
Genetic structure
genome-wide SNP
Genomes
Geographical distribution
Geographical isolation
Glacial periods
Gravel
Habitat fragmentation
Habitats
Mountains
Phylogenetics
Population
Population genetics
population genomics
Population studies
Populations
Prunus mongolica
Rosaceae
Software
Wildlife conservation
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Summary:The extensive range of sand deserts, gravel deserts, and recent human activities have shaped habitat fragmentation of relict and endangered plants in arid northwestern China. Prunus mongolica is a relict and endangered shrub that is mainly distributed in the study area. In the present study, population genomics was integrated with a species distribution model (SDM) to investigate the spatial genetic diversity and structure of P. mongolica populations in response to habitat fragmentation and create a proposal for the conservation of this endangered species. The results showed that the northern marginal populations were the first isolated from other populations. The SDM suggested that these marginal populations had low levels of habitat suitability during the glacial period. They could not obtain migration corridors, and thus possessed low levels of gene flow connection with other populations. Additionally, several populations underwent secondarily geographical isolation from other central populations, which preserved particular genetic lineages. Genetic diversity was higher in southern populations than in northern ones. It was concluded that long-term geographical isolation after historical habitat fragmentation promoted the divergence of marginal populations and refugial populations along mountains from other populations. The southern populations could have persisted in their distribution ranges and harbored higher levels of genetic diversity than the northern populations, whose distribution ranges fluctuated in response to paleoclimatic changes. We propose that the marginal populations of P. mongolica should be well considered in conservation management.
ISSN:1424-2818
1424-2818
DOI:10.3390/d13080397