Abstract
Genetic diversity and differentiation are revealed particularly through spatio-temporal environmental heterogeneity. Acer ginnala, as a deciduous shrub/small tree, is a foundation species in many terrestrial ecosystems of Northern China. Owing to its increased use as an economic resource, this species has been in the vulnerability. Therefore, the elucidations of the genetic differentiation and influence of environmental factors on A. ginnala are very critical for its management and future utilization strategies. In this study, high genetic diversity and differentiation occurred in A. ginnala, which might be resulted from its pollination mechanism and species characteristics. Compared with the species level, relatively low genetic diversity was detected at the population level that might be the cause for its vulnerability. There was no significant relationship between genetic and geographical distances, while a significant correlation existed between genetic and environmental distances. Among nineteen climate variables, Annual Mean Temperature (bio1), Mean Diurnal Range (bio2), Isothermality (bio3), Temperature Seasonality (bio4), Precipitation of Wettest Month (bio13), Precipitation Seasonality (bio15), and Precipitation of Warmest Quarter (bio18) could explain the substantial levels of genetic variation (> 40%) in this species. The A. ginnala populations were isolated into multi-subpopulations by the heterogeneous climate conditions, which subsequently promoted the genetic divergence. Climatic heterogeneity played an important role in the pattern of genetic differentiation and population distribution of A. ginnala across a relatively wide range in Northern China. These would provide some clues for the conservation and management of this vulnerable species.
Highlights
Genetic diversity and differentiation are revealed through spatio-temporal environmental heterogeneity
Developments as an economic resource have accelerated the degradation of A. ginnala populations so that this species has been listed as a vulnerable plant in a recent nationwide biodiversity r eport[23]
We presented the first investigation of the genetic variation of A. ginnala across a wide range in China using two types of molecular markers (SSR and sequence-related amplified polymorphism (SRAP)), with a specific focus on genetic differentiation in the population, in order to understand whether geographical and climatic factors affected the genetic variation and genetic structure
Summary
Genetic diversity and differentiation are revealed through spatio-temporal environmental heterogeneity. Climatic heterogeneity played an important role in the pattern of genetic differentiation and population distribution of A. ginnala across a relatively wide range in Northern China. These would provide some clues for the conservation and management of this vulnerable species. Investigating the genetic diversity and extent of genetic differentiation within/between populations, while estimating the impact of environmental factors and understanding the processes that maintain these variations are very useful toward gaining deeper insights into evolutionary history, and are critical for the prudent formulation of conservation, management and utilization s trategies[2,3,10,11,12,13]. The level of genetic variation of the studied populations was observed to increase along an elevation gradient[26], indicating the influence of climatic heterogeneity
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