Population Genetics of Species in the Genera Botrychium and Botrypus (Ophioglossaceae)

Pub Date : 2021-06-07 DOI:10.1640/0002-8444-111.2.129
E. Williams
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引用次数: 2

Abstract

Abstract. The population genetics of ferns, which results from initiation of individuals in a new location (often via long-distance dispersal) plus a wide range of mating systems, merit continued study. In the case of species in the subfamily Botrychioideae (specifically the genera Botrychium and Botrypus), previous work using allozyme and isozyme techniques revealed low genetic diversity and weak population genetic structure. This lack of genetic differentiation between populations is in spite of underground fertilization in the genus resulting in high levels of inbreeding and primarily fixed heterozygosity in tetraploids. In the present study, Amplified Fragment-Length Polymorphisms (AFLPs) were used to examine population genetics and structure of three species in the genus Botrychium and one species in the genus Botrypus. Measures of population genetic diversity were generally low, with the highest measures in the relatively common Botrypus virginianus. Across all species, measures of population differentiation were low and most genetic variation was contained within populations. Bayesian analysis of population structure using the program STRUCTURE corroborated these findings, with inferred genetic clusters that generally did not correspond to geographic collecting locations. These results agree with previous studies, with low genetic diversity within and among populations likely due to self-fertilization that limits outcrossing and long-distance spore dispersal that results in genetically similar populations.
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Botrychium属和Botrypus属物种的群体遗传学
摘要蕨类植物的群体遗传学是由个体在一个新的位置(通常通过长距离传播)和广泛的交配系统引发的,值得继续研究。就Botrychioidae亚科(特别是Botrychium属和Botrypus属)的物种而言,先前使用等位酶和同工酶技术的研究表明,遗传多样性较低,种群遗传结构较弱。尽管该属地下受精导致了高水平的近亲繁殖和主要固定的四倍体杂合性,但种群之间缺乏遗传分化。本研究采用扩增片段长度多态性(AFLP)技术对三种肉苁蓉属植物和一种肉苁属植物的群体遗传学和结构进行了研究。种群遗传多样性的测量值通常较低,其中相对常见的弗吉尼亚肉毒杆菌的测量值最高。在所有物种中,种群分化的指标都很低,大多数遗传变异都包含在种群中。使用structure程序对种群结构进行的贝叶斯分析证实了这些发现,推断出的基因簇通常与地理采集位置不对应。这些结果与之前的研究一致,种群内部和种群之间的遗传多样性较低,这可能是由于自受精限制了异交和长距离孢子传播,从而导致种群遗传相似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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