Abstract
BackgroundThe effects of historical geology and climatic events on the evolution of plants around the Qinghai-Tibetan Plateau region have been at the center of debate for years. To identify the influence of the uplift of the Tianshan Mountains and/or climatic oscillations on the evolution of plants in arid northwest China, we investigated the phylogeography of the Euphrates poplar (Populus euphratica) using chloroplast DNA (cpDNA) sequences and nuclear microsatellites, and estimated its historical distribution using Ecological Niche Modeling (ENM).ResultsWe found that the Euphrates poplar differed from another desert poplar, P. pruinosa, in both nuclear and chloroplast DNA. The low clonal diversity in both populations reflected the low regeneration rate by seed/seedlings in many locations. Both cpDNA and nuclear markers demonstrated a clear divergence between the Euphrates poplar populations from northern and southern Xinjiang regions. The divergence time was estimated to be early Pleistocene based on cpDNA, and late Pleistocene using an Approximate Bayesian Computation analysis based on microsatellites. Estimated gene flow was low between these two regions, and the limited gene flow occurred mainly via dispersal from eastern regions. ENM analysis supported a wider distribution of the Euphrates poplar at 3 Ma, but a more constricted distribution during both the glacial period and the interglacial period.ConclusionsThese results indicate that the deformation of the Tianshan Mountains has impeded gene flow of the Euphrates poplar populations from northern and southern Xinjiang, and the distribution constriction due to climatic oscillations further accelerated the divergence of populations from these regions. To protect the desert poplars, more effort is needed to encourage seed germination and seedling establishment, and to conserve endemic gene resources in the northern Xinjiang region.
Highlights
The effects of historical geology and climatic events on the evolution of plants around the QinghaiTibetan Plateau region have been at the center of debate for years
Microsatellite variation The 17 microsatellite loci yielded a total of 228 alleles (2–28 per locus) from our sample of 673 individuals (See Additional file 1: Table S3), of which 207 and 152 alleles were detected in P. euphratica and P. pruinosa, respectively
Following our analyses based on these microsatellite loci, 54 distinct multilocus genotypes (MLGs) were detected from the 122 samples of P. pruinosa, and 203 MLGs were detected from 551 samples of P. euphratica, with the clonal diversity (R) ranging from 0.077–0.821 within populations of P. pruinosa, and 0–0.947 within populations of P. euphratica (Table 1 and Additional file 1: Figure S1)
Summary
The effects of historical geology and climatic events on the evolution of plants around the QinghaiTibetan Plateau region have been at the center of debate for years. To identify the influence of the uplift of the Tianshan Mountains and/or climatic oscillations on the evolution of plants in arid northwest China, we investigated the phylogeography of the Euphrates poplar (Populus euphratica) using chloroplast DNA (cpDNA) sequences and nuclear microsatellites, and estimated its historical distribution using Ecological Niche Modeling (ENM). A worldwide cooling has occurred since the Middle Miocene climate optimum These together have caused the progressive aridification of central Asia [8]; see [3] for more references. The deserts of northwest China, including the four largest deserts (Taklamakan, Guerbantonggute, Badain Jaran, and Tengger), together comprise the world’s largest mid-latitude, temperate, continental interior desert region [11, 12]
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