具有个体非均匀分布的精细尺度空间遗传结构。

Fine-scale spatial genetic structure with nonuniform distribution of individuals.

作者信息

Doligez A, Baril C, Joly H I

机构信息

CIRAD-Forêt, Montpellier, France.

出版信息

Genetics. 1998 Feb;148(2):905-19. doi: 10.1093/genetics/148.2.905.

DOI:10.1093/genetics/148.2.905

PMID:9504936

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1459809/

Abstract

This paper presents the first theoretical study of spatial genetic structure within nonuniformly distributed continuous plant populations. A novel individual-based model of isolation by distance was constructed to simulate genetic evolution within such populations. We found larger values of spatial genetic autocorrelations in highly clumped populations than in uniformly distributed populations. Most of this difference was caused by differences in mean dispersal distances, but aggregation probably also produced a slight increase in spatial genetic structure. Using an appropriate level of approximation of the continuous distribution of individuals in space, we assessed the potential effects of density, seed and pollen dispersal, generation overlapping, and overdominance selection at an independent locus, on fine-scale genetic structure, by varying them separately in a few particular cases with extreme clumping. When selfing was allowed, all these input variables influenced both aggregation and spatial genetic structure. Most variations in spatial genetic structure were closely linked to variations in clumping and/or local density. When selfing was not allowed, spatial genetic structure was lower in most cases.

摘要

本文首次对非均匀分布的连续植物种群内的空间遗传结构进行了理论研究。构建了一个新颖的基于个体的距离隔离模型，以模拟此类种群内的遗传进化。我们发现，高度聚集的种群中的空间遗传自相关值比均匀分布的种群中的更大。这种差异大部分是由平均扩散距离的差异引起的，但聚集可能也导致了空间遗传结构略有增加。通过在空间中个体连续分布的适当近似水平下，在一些极端聚集的特定情况下分别改变密度、种子和花粉扩散、世代重叠以及独立位点的超显性选择，我们评估了它们对精细尺度遗传结构的潜在影响。当允许自交时，所有这些输入变量都会影响聚集和空间遗传结构。空间遗传结构的大多数变化都与聚集和/或局部密度的变化密切相关。当不允许自交时，大多数情况下空间遗传结构较低。

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本文引用的文献

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