微卫星揭示了乌干达和肯尼亚osyris lanceolata(山茶科)种群遗传多样性和结构的差异

IF 3.4 Q1 Agricultural and Biological Sciences
Ben Belden Mugula, S. F. Omondi, Manuel Curto, Samuel Kuria Kiboi, James Ireri Kanya, Anthony Egeru, Paul Okullo, Harald Meimberg
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引用次数: 0

摘要

Osyris lanceolata (Hochst. & Steud.)(山檀科)是一种多用途植物,在非洲具有很高的文化和经济价值。然而,由于过度开发,O. lanceolata 在东非的数量迅速减少,据信这将进一步影响该物种在该地区的遗传多样性和结构。有关物种遗传多样性和结构的信息是保护物种所必需的,但目前乌干达和肯尼亚的 O. lanceolata 还缺乏这方面的信息。缺乏足够的科学数据阻碍了保护工作,从而威胁到物种的生存和生计。本研究调查了乌干达和肯尼亚长尾杉的遗传多样性和结构模式。研究利用 10 个多态微卫星位点对 210 个个体进行了基因分型:其中 96 个来自乌干达种群,114 个来自肯尼亚种群。所有种群都具有高度多态性(80-100% 的多态性)。肯尼亚种群和乌干达种群之间存在遗传分化。个体间的遗传差异最大,种群间的差异最小。肯尼亚种群的遗传多样性高于乌干达种群。乌干达种群在哈代-温伯格平衡和近交系数方面表现出更多的标记偏离。有两个种群显示出近期出现瓶颈的迹象。遗传分化明显,K 值越高,结构越大,种群间的混杂现象也越明显。与距离和气候变量相比,海拔对这些种群有明显的隔离作用。主要障碍与海拔差异有关。这些数据支持了两国高海拔种群之间存在长距离基因流动的观点。遗传结构的差异表明,在 O. lanceolata 中存在未被认可的分类单元,这些单元具有低海拔和高海拔的特征,其中包括大多数具有不同进化模式的肯尼亚种群。地理障碍和环境梯度可能会影响这种遗传分化,这种模式可能会使物种的微进化过程升级为完全的同域物种分化。有必要进一步调查该物种的遗传混合情况和新出现的分类单元,以指导该地区的保护策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microsatellites reveal divergence in population genetic diversity, and structure of osyris lanceolata (santalaceae) in Uganda and Kenya
Osyris lanceolata (Hochst. & Steud.) (Santalaceae) is a multipurpose plant highly valued culturally and economically in Africa. However, O. lanceolata populations have rapidly dwindled in East Africa due to overexploitation and this is believed to cause further consequences on the species’ genetic diversity and structure within the region. Information regarding a species’ genetic diversity and structure is necessary for conservation but this is currently lacking for O. lanceolata in Uganda and Kenya. Lack of adequate scientific data hinders conservation efforts hence threatening the species survival and livelihoods. This study investigated patterns in genetic diversity and structure of O. lanceolata in Uganda and Kenya. Ten polymorphic microsatellite loci were used to genotype 210 individuals: 96 from Ugandan and 114 from Kenyan populations. All populations were highly polymorphic (80–100% polymorphism). A genetic differentiation was found between Kenyan and Ugandan populations. The highest genetic differentiation was among individuals and the least among populations. The Kenyan populations showed higher genetic diversity than Ugandan populations. The Ugandan populations showed more marker deviations from Hardy-Weinberg equilibrium and inbreeding coefficient. Two populations showed evidence of going through a recent bottleneck. There was significant genetic differentiation and structuring at higher K values into larger clusters and observed admixture between populations. The populations were significantly isolated by altitude as opposed to distance and climatic variables. Main barriers were associated with altitude differences. The data supports the idea of long-distance gene-flow between high altitude populations in both countries. The divergence in genetic structure suggests unrecognised taxonomic units within O. lanceolata which are characteristic to lower altitudes and higher altitudes including most Kenyan populations with divergent evolutionary patterns. Geographical barriers and environmental gradients could have influenced this genetic divergence, and such patterns may escalate the species microevolutionary processes into full allopatric speciation. Further investigations into the species’ genetic admixture and emerging taxonomic units are necessary to guide conservation strategies in the region.
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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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