Determinants of Population Genetic Structure in Chamaecrista fasciculata (Michx.) Greene (Fabaceae) in the Southeastern United States

IF 0.2 4区生物学 Q4 PLANT SCIENCES

Castanea Pub Date : 2022-06-15 DOI:10.2179/0008-7475.87.1.129

Mahboubeh Hosseinalizadeh Nobarinezhad, L. Wallace

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引用次数: 1

Abstract

ABSTRACT Chamaecrista fasciculata is a widely distributed, phenotypically variable species in the eastern U.S. Whereas studies have demonstrated genetic structure and local adaptation in northern areas of its distribution, there has been no comparison of genetic variability among populations at the southern extent where phenotypic variation is more complex. We characterized genetic variation at 14 microsatellite loci for populations in Mississippi and Alabama and compared this to variation in a phenotypic trait, leaf pubescence. Geographic distance, climatic variables, and elevation were evaluated as factors to explain the observed patterns of genetic diversity. A significant amount of variation (19%) resided among populations, but most variation (68%) was among individuals. Assignment of individuals into genetic groups suggests two primary clusters, but these groups are not concordant with known geographical or ecological breaks, nor phenotypic variants. Genetic structure at a regional scale can be characterized as isolation by distance, while environmental factors may play a secondary role in limiting gene flow at local scales. Mean population FST is strongly associated with allelic diversity and heterozygosity, suggesting that genetic drift influences population variation. Despite the presence of genetic and phenotypic variation in southern populations of C. fasciculata, the lack of concordant patterns between these types of variation indicate that they are not driven by the same factors. This study demonstrates how local factors differentially influence the maintenance of intraspecific variation and suggest the southern distributional range is an active area of evolution for C. fasciculata.

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卷叶蕨群体遗传结构的决定因素美国东南部的一种豆科植物

束状Chamaecrista fasciculata是美国东部广泛分布的一种表型变异物种，尽管研究表明其在北部地区的分布具有遗传结构和局部适应性，但尚未对表型变异更为复杂的南部地区种群间的遗传变异性进行比较。我们在密西西比州和阿拉巴马州的种群中鉴定了14个微卫星位点的遗传变异，并将其与表型性状叶片短柔毛的变异进行了比较。地理距离、气候变量和海拔是解释观察到的遗传多样性模式的因素。大量变异(19%)存在于群体中，但大多数变异(68%)存在于个体中。将个体分配到遗传群体中表明有两个主要的群体，但这些群体与已知的地理或生态断裂不一致，也不符合表型变异。在区域尺度上，遗传结构可以表现为距离隔离，而在局部尺度上，环境因素可能在限制基因流动方面起次要作用。平均种群FST与等位基因多样性和杂合度密切相关，表明遗传漂变影响种群变异。尽管存在遗传和表型变异，但这些变异类型之间缺乏一致性模式表明它们不是由相同的因素驱动的。本研究揭示了局部因素对种内变异维持的差异性影响，并提示南方分布范围是束状木进化的活跃区域。

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来源期刊

Castanea 生物-植物科学

CiteScore

0.50

自引率

25.00%

发文量

审稿时长

>12 weeks

期刊介绍： Castanea is named in honor of the American Chestnut tree. Castanea is thebotanical name for Chestnuts, dating back to what the ancient Greeks calledthem. The American Chestnut is a critically endangered tree that once made up 35%of the forests of the Eastern US before being devastated by a blight thatdestroyed up to 4 billion American Chestnut trees. Castanea serves professional and amateur botanists by reviewing andpublishing scientific papers related to botany in the Eastern United States. We accept papers relating to plant biology, biochemistry, ecology, floristics,physiology and systematics.