Isolation-by-environment as a driver of genetic differentiation among populations of the only broad-leaved evergreen shrub Ammopiptanthus mongolicus in Asian temperate deserts

Whether the effect of migration-selection-drift equilibrium on population structure is governed by spatial or environmental differences is usually elucidated by isolation-by-distance (IBD), isolation-by-environment (IBE), and isolation-by-resistance (IBR) tests. The population structure of Ammopipta...

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Published in:Scientific reports 2019-08, Vol.9 (1), p.12008-14, Article 12008
Main Authors: Jiang, Shan, Luo, Min-Xin, Gao, Run-Hong, Zhang, Wei, Yang, Yong-Zhi, Li, Ying-Jie, Liao, Pei-Chun
Format: Article
Language:English
Subjects:
45/77
631/158/2464
631/181/457/649/2157
Ammopiptanthus mongolicus
Colonization
Environment
Environmental factors
Fabaceae - genetics
Gene flow
Genetic diversity
Genetic Drift
Genetic structure
Genetic Variation
Genetics, Population
Germplasm
Humanities and Social Sciences
multidisciplinary
Overwintering
Population
Population differentiation
Population genetics
Population structure
Precipitation
Reproductive Isolation
Science
Science (multidisciplinary)
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Summary:Whether the effect of migration-selection-drift equilibrium on population structure is governed by spatial or environmental differences is usually elucidated by isolation-by-distance (IBD), isolation-by-environment (IBE), and isolation-by-resistance (IBR) tests. The population structure of Ammopiptanthus mongolicus , a broad-leaved evergreen psammophyte in eastern Central Asia, was previously thought to follow an isolation by distance pattern. However, recent studies have emphasized the effects of environmental factors on its growth and distribution, suggesting an important influence of local adaptation on the genetic structure of the species. Using inter-simple sequence repeat (ISSR) markers, we verified the previously inferred low intra-population variation and high inter-population differentiation. However, in contrast to previous studies, the results of partial Mantel tests and a maximum likelihood population effects mixed model (MLPE) suggested that local climate differences, rather than geographic distances or resistance distances, are the main factor affecting population differentiation. Further analysis with removal of multicollinear climatic variables and univariate MLPE found that summer and winter precipitation were crucial for shaping the current population genetic structure. Since local precipitation is related to the regeneration, colonization, and overwintering survival of A. mongolicus , its influence on demographic change may explain its effect on the population genetic structure. In addition, precipitation is related to terrain despite westward decreases, which explains the independence of genetic difference and geographic distance. The identified role of IBE suggests that collecting germplasm resources from genetically differentiated populations could be a more effective strategy to preserve the overall genetic diversity of the species than the establishment of corridors to enhance gene flow among populations.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-48472-y