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珍稀的韩国特有植物朝鲜玉簪(百合科)种群的克隆与精细尺度遗传结构及其保护意义

Clonal and fine-scale genetic structure in populations of a restricted Korean endemic, Hosta jonesii (Liliaceae) and the implications for conservation.

作者信息

Chung Mi Yoon, Suh Youngbae, López-Pujol Jordi, Nason John D, Chung Myong Gi

机构信息

Department of Biology, Gyeongsang National University, Jinju 660-701, Republic of Korea.

出版信息

Ann Bot. 2005 Aug;96(2):279-88. doi: 10.1093/aob/mci176. Epub 2005 May 31.

DOI:10.1093/aob/mci176
PMID:15928007
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4246876/
Abstract

BACKGROUND AND AIMS

In plant populations the magnitude of spatial genetic structure of apparent individuals (including clonal ramets) can be different from that of sexual individuals (genets). Thus, distinguishing the effects of clonal versus sexual individuals in population genetic analyses could provide important insights for evolutionary biology and conservation. To investigate the effects of clonal spread on the fine-scale spatial genetic structure within plant populations, Hosta jonesii (Liliaceae), an endemic species to Korea, was chosen as a study species.

METHODS

Using allozymes as genetic markers, spatial autocorrelation analysis of ramets and of genets was conducted to quantify the spatial scale of clonal spread and genotype distribution in two populations of H. jonesii.

KEY RESULTS

Join-count statistics revealed that most clones are significantly aggregated at < 3-m interplant distance. Spatial autocorrelation analysis of all individuals resulted in significantly higher Moran's I values at 0-3-m interplant distance than analyses of population samples in which clones were excluded. However, significant fine-scale genetic structure was still observed when clones were excluded.

CONCLUSIONS

These results suggest that clones enhance the magnitude of spatial autocorrelation due to localized clonal spread. The significant fine-scale genetic structure detected in samples excluding clones is consistent with the biological and ecological traits exhibited by H. jonesii including bee pollination and limited seed dispersal. For conservation purposes, genetic diversity would be maximized in local populations of H. jonesii by collecting or preserving individuals that are spaced at least 5 m apart.

摘要

背景与目的

在植物种群中,表观个体(包括克隆分株)的空间遗传结构大小可能与有性个体(基株)不同。因此,在种群遗传分析中区分克隆个体与有性个体的影响可为进化生物学和保护提供重要见解。为了研究克隆扩散对植物种群内精细尺度空间遗传结构的影响,选择了韩国特有物种玉簪属琼斯玉簪(百合科)作为研究对象。

方法

以等位酶作为遗传标记,对琼斯玉簪两个种群的分株和基株进行空间自相关分析,以量化克隆扩散的空间尺度和基因型分布。

主要结果

连接计数统计显示,大多数克隆在植株间距小于3米时显著聚集。对所有个体的空间自相关分析在植株间距0 - 3米时的莫兰氏I值显著高于排除克隆的种群样本分析。然而,排除克隆后仍观察到显著的精细尺度遗传结构。

结论

这些结果表明,克隆由于局部克隆扩散而增强了空间自相关的程度。在排除克隆的样本中检测到的显著精细尺度遗传结构与琼斯玉簪表现出的生物学和生态特征一致,包括蜜蜂授粉和有限的种子传播。出于保护目的,通过收集或保存至少间隔5米的个体,琼斯玉簪当地种群的遗传多样性将最大化。

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