环境对 Sassafras tzumu(月桂科)遗传结构和遗传分化的影响。

IF 2.3 Q2 ECOLOGY BMC ecology and evolution Pub Date : 2024-06-13 DOI:10.1186/s12862-024-02264-9
Bicai Guan, Qian Liu, Xiang Liu, Xi Gong
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引用次数: 0

摘要

背景介绍檫木(Sassafras tzumu)是一种优雅的落叶树栖物种,属于著名的月桂科檫木属。檫木具有巨大的商业价值,近几十年来,其自然栖息地内不断攀升的市场需求和不可预见的人类活动对檫木构成了新的威胁,因此有必要对其遗传多样性及其影响因素进行研究,并提出相关的保护策略:结果:利用序列基因分型(GBS)技术,我们从散布于中国不同山区的13个不同的檫木自然种群的106个个体中获得了一个全面的单核苷酸多态性(SNPs)数据库。通过细致的分析,我们旨在揭示这些檫木种群内部错综复杂的遗传多样性和结构,同时研究可能影响遗传距离的各种因素。我们的初步发现揭示了中等程度的遗传分化(FST = 0.103,p E = 0.46,p D = 0.16,p 结论):在我们的调查中,S. tzumu 种群间的遗传变异表现出中等程度的分化,同时遗传多样性水平也有所提高。与地理距离相比,环境距离对 S. tzumu 遗传多样性的影响更大。制定和实施精细的管理和保护策略,以保护宝贵的天竺葵遗传资源,具有极其重要的意义。
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Environment influences the genetic structure and genetic differentiation of Sassafras tzumu (Lauraceae).

Background: Sassafras tzumu, an elegant deciduous arboreal species, belongs to the esteemed genus Sassafras within the distinguished family Lauraceae. With its immense commercial value, escalating market demands and unforeseen human activities within its natural habitat have emerged as new threats to S. tzumu in recent decades, so it is necessary to study its genetic diversity and influencing factors, to propose correlative conservation strategies.

Results: By utilizing genotyping-by-sequence (GBS) technology, we acquired a comprehensive database of single nucleotide polymorphisms (SNPs) from a cohort of 106 individuals sourced from 13 diverse Sassafras tzumu natural populations, scattered across various Chinese mountainous regions. Through our meticulous analysis, we aimed to unravel the intricate genetic diversity and structure within these S. tzumu populations, while simultaneously investigating the various factors that potentially shape genetic distance. Our preliminary findings unveiled a moderate level of genetic differentiation (FST = 0.103, p < 0.01), accompanied by a reasonably high genetic diversity among the S. tzumu populations. Encouragingly, our principal component analysis painted a vivid picture of two distinct genetic and geographical regions across China, where gene flow appeared to be somewhat restricted. Furthermore, employing the sophisticated multiple matrix regression with randomization (MMRR) analysis method, we successfully ascertained that environmental distance exerted a more pronounced impact on genetic distance when compared to geographical distance (βE = 0.46, p < 0.01; βD = 0.16, p < 0.01). This intriguing discovery underscores the potential significance of environmental factors in shaping the genetic landscape of S. tzumu populations.

Conclusions: The genetic variance among populations of S. tzumu in our investigation exhibited a moderate degree of differentiation, alongside a heightened level of genetic diversity. The environmental distance of S. tzumu had a greater impact on its genetic diversity than geographical distance. It is of utmost significance to formulate and implement meticulous management and conservation strategies to safeguard the invaluable genetic resources of S. tzumu.

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