期刊
JOURNAL OF SYSTEMATICS AND EVOLUTION
卷 59, 期 3, 页码 596-610出版社
WILEY
DOI: 10.1111/jse.12573
关键词
bottleneck; conservation management; ecological niche modeling; endangered species; phylogeographic modeling; pines; population isolation; population structure
资金
- Polish National Science Centre [UMO-2015/19/B/NZ9/00024]
This study explores the history and genetic structure of endangered peat bog pine populations through genetic diversity assessment, ecological niche modeling, and population demography inference. The research found similar levels of genetic diversity across populations at nuclear loci but contrasting patterns of variability distribution at chloroplast markers, indicating an ancient genetic bottleneck and enhanced genetic drift due to long-lasting isolation. The study suggests potential conservation management strategies and highlights the importance of using complementary approaches.
With the current rate of biodiversity loss, conservation management practices require a comprehensive understanding of eco-evolutionary relationships, history, and genetic structure of species. Assessments of genetic diversity are crucial, especially in rare, endemic, or threatened forest tree species with small and isolated populations, such as peat bog pine (Pinus uliginosaN.). Here, we used a novel approach, combining genetic diversity assessment, ecological niche modeling, and population demography inference to explore the complex history of a few remnant populations of this endangered pine. To asses the relative influence of isolation and fragmentation on genetic diversity in the taxonomic context, the patterns of genetic variation found inP. uliginosawere contrasted with those observed in its close relatives with much bigger distribution ranges and larger populations (Pinus sylvestris, Pinus mugo, andPinus uncinata). We found a similar level of genetic diversity across the species at nuclear loci but contrasting patterns of variability distribution at chloroplast markers. We detected the signatures of an ancient genetic bottleneck dated at around 26 400 years ago, indicating a drastic reduction in the population size ofP. uligionosaduring the Last Glacial Maximum. In addition, we found substantial differentiation between current populations as a result of enhanced genetic drift during long-lasting isolation. The research suggests potential conservation management strategies for peat bog pine and emphasizes the importance of using complementary approaches for their successful development.
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