不同生境破碎化水平下球花相思种群的精细空间遗传结构、交配和基因扩散模式。

Fine-scale spatial genetic structure, mating, and gene dispersal patterns in Parkia biglobosa populations with different levels of habitat fragmentation.

机构信息

Centre National de Semences Forestières, 01 BP 2682, Ouagadougou 01, Burkina Faso.

Department of Forest Genetics, Austrian Research and Training Centre for Forests, Seckendorff-Gudent-Weg 8, 1131, Vienna, Austria.

出版信息

Am J Bot. 2020 Jul;107(7):1041-1053. doi: 10.1002/ajb2.1504. Epub 2020 Jul 7.

DOI:10.1002/ajb2.1504

PMID:32638366

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7496244/

Abstract

PREMISE

A good understanding of genetic variation and gene dispersal in tree populations is crucial for their sustainable management, particularly in a context of rapid environmental changes. West African Sudanian savannahs are being fragmented and degraded, partly due to expansion of crop cultivation and monocultures that reduce tree density and may impact pollinators. The population dynamics of important indigenous trees could also be affected. We investigated the influence of habitat fragmentation on patterns of genetic diversity and gene dispersal of a key Sudanian agroforestry tree species, Parkia biglobosa.

METHODS

Using 10 highly polymorphic nuclear microsatellites, we genotyped 2475 samples from reproductive trees, seedlings, and embryos in four tree populations presenting different levels of habitat fragmentation.

RESULTS

Parkia biglobosa presented similar high genetic diversity across the four populations studied. Genetic diversity and inbreeding were similar between adults and embryo cohorts. In all four populations, the selfing rate was less than 1%. The effective number of pollen donors per tree was high (N ~ 18-22), as was the pollen immigration rate (from 34 to 74%). Pollen dispersal was characterized by a fat-tailed distribution with mean estimates exceeding 200 m. In three populations, stem diameter had a pronounced effect on male reproductive success. Here, the highest male reproductive success was observed in trees with a diameter at breast height between 60 and 75 cm.

CONCLUSIONS

At the scale analyzed, fragmentation does not seem to pose limitations to gene flow in any of the sites investigated, regardless of the landscape configuration associated with the different tree stands. The study provides useful insights on the reproductive biology of an important tree species in the West African savannahs.

摘要

前提

了解树木种群中的遗传变异和基因扩散对于其可持续管理至关重要，尤其是在环境快速变化的背景下。西非苏丹稀树草原正在破碎化和退化，部分原因是作物种植和单一栽培的扩张，这降低了树木密度，并可能影响传粉媒介。重要的本地树种的种群动态也可能受到影响。我们研究了生境破碎化对关键苏丹农牧树种 Parkia biglobosa 遗传多样性和基因扩散模式的影响。

方法

我们使用 10 个高度多态性的核微卫星，对来自四个具有不同生境破碎化水平的树种的繁殖树、幼苗和胚胎的 2475 个样本进行了基因型分析。

结果

Parkia biglobosa 在四个研究的种群中表现出相似的高遗传多样性。成年个体和胚胎群体之间的遗传多样性和近交程度相似。在所有四个种群中，自交率均低于 1%。每棵树的有效花粉供体数较高（N~18-22），花粉传入率也较高（34%至 74%）。花粉扩散呈长尾分布，平均估计值超过 200 米。在三个种群中，茎直径对雄性生殖成功有显著影响。在胸径为 60 至 75 厘米的树木中，雄性生殖成功率最高。

结论

在所分析的尺度上，无论与不同林分相关的景观配置如何，破碎化似乎都不会对任何调查地点的基因流造成限制。该研究为西非稀树草原重要树种的生殖生物学提供了有用的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/806d/7496244/0e25c27a0e08/AJB2-107-1041-g001.jpg

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不同生境破碎化水平下球花相思种群的精细空间遗传结构、交配和基因扩散模式。

Fine-scale spatial genetic structure, mating, and gene dispersal patterns in Parkia biglobosa populations with different levels of habitat fragmentation.

机构信息

出版信息

PREMISE

METHODS

RESULTS

CONCLUSIONS

前提

方法

结果

结论

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