毛茛最北端优势居群种子和花粉迁移遗传多样性恢复过程

IF 1.1 4区 生物学 Q4 ECOLOGY Plant Species Biology Pub Date : 2021-05-05 DOI:10.1111/1442-1984.12332
K. Kitamura, A. Nakanishi
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引用次数: 5

摘要

植物物种的范围扩张始于后源种群对生态空白斑块的定殖。这一过程涉及遗传多样性的随机丧失。然而,始祖群体可以通过种子和花粉等途径从后生群体中获得基因,从而恢复遗传多样性,其恢复影响着物种扩张的进化潜力。为了阐明物种扩展过程中遗传多样性的恢复过程,研究了油麻扩展前沿种子和花粉的基因流。基于北端前沿居群150个个体和225个种子的8个核微卫星基因型,研究了北端前沿居群与其他5个北方居群的遗传多样性、精细尺度空间遗传结构(FSGS)和遗传分化。分析了不同演替阶段种子和花粉的迁移及其对遗传多样性的影响。前沿群体表现出较低的遗传多样性和较强的遗传分化,反映出较强的遗传漂变。成熟树的非显著FSGS和负近交系数可能表明最早的一代是由来自外来种子源的创始人组成的。在演替后期,种子和花粉的大量迁移增加了不同等位基因的数量。外来源花粉的有效亲本数(20.8)明显高于本地源
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Recovery process of genetic diversity through seed and pollen immigration at the northernmost leading‐edge population of Fagus crenata
The range expansion of a plant species begins with colonization of ecological empty patches from posterior source populations. This process involves stochastic loss of genetic diversity. However, the founder population could restore genetic diversity by gene flow from posterior populations via seeds and pollen and its recovery affects evolutionary potential for species expansion. To clarify the recovery process of genetic diversity during species range expansion, gene flow via seeds and pollen was investigated at the expansion front of Fagus crenata . Based on eight nuclear microsatellite genotypes of a total of 150 individuals and 225 seeds at the northernmost leading-edge population, genetic diversity, fine-scale spatial genetic structure (FSGS), and genetic differentiation from other five northern populations were investigated. Moreover, both seed and pollen immigration and their effects on genetic diversity at different successional stages were analyzed. The leading-edge population showed lower genetic diversity and substantial genetic differentiation, reflecting its strong genetic drift. Non-significant FSGS and a negative inbreeding coefficient for mature trees may indicate that the earliest generation consisted of founders from foreign seed sources. The significant proportion of seed and pollen immigration increased the number of different alleles for later successional stages. The effective number of pollen parents from foreign sources (20.8) was markedly higher than that from the local source These results indicated that
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来源期刊
Plant Species Biology
Plant Species Biology 生物-生态学
CiteScore
2.70
自引率
14.30%
发文量
36
审稿时长
>12 weeks
期刊介绍: Plant Species Biology is published four times a year by The Society for the Study of Species Biology. Plant Species Biology publishes research manuscripts in the fields of population biology, pollination biology, evolutionary ecology, biosystematics, co-evolution, and any other related fields in biology. In addition to full length papers, the journal also includes short research papers as notes and comments. Invited articles may be accepted or occasion at the request of the Editorial Board. Manuscripts should contain new results of empirical and/or theoretical investigations concerning facts, processes, mechanisms or concepts of evolutionary as well as biological phenomena. Papers that are purely descriptive are not suitable for this journal. Notes & comments of the following contents will not be accepted for publication: Development of DNA markers. The journal is introducing ''Life history monographs of Japanese plant species''. The journal is dedicated to minimizing the time between submission, review and publication and to providing a high quality forum for original research in Plant Species Biology.
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