基于 SSR 的遗传分析描绘了喜马拉雅山西部一种高价值食用果树 Myrica esculenta 的高基因多样性和微妙的种群遗传结构

IF 2.1 3区 农林科学 Q2 FORESTRY
Trees Pub Date : 2024-07-22 DOI:10.1007/s00468-024-02545-2
Harish S. Ginwal, Rajendra K. Meena, Maneesh S. Bhandari, Anita Rawat, Haripriya Kavidayal, Santan Barthwal, Rama Kant
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引用次数: 0

摘要

关键信息基于简单序列重复的表征揭示了喜马拉雅山西部Myrica esculenta种群的高遗传多样性、可忽略的遗传分化、不明显的近亲繁殖和微妙的遗传结构,表明其具有很高的适应性和进化潜力。本研究旨在利用核简单序列重复(SSR)标记揭示北阿坎德邦(印度)西喜马拉雅山M. esculenta种群的基因多样性和空间遗传结构。通过调查 8 个 SSR 位点上的 23 个种群,记录到了较高的遗传多样性(预期杂合度,He = 0.90;等位基因丰富度,Ar = 13.65)和较小的遗传分化(固定指数,FST = 0.)贝叶斯分析显示,遗传结构较弱,没有可以推断祖先的离散遗传系。此外,种群间的遗传聚类很明显,但与其空间分布不一致。由于基因通过花粉和种子进行远距离流动,地理上分离的种群在遗传上有很好的联系。因此,喜马拉雅山西部的元种群表现出微妙的空间遗传结构,遗传差异微乎其微,遗传混杂不受地理限制。鉴于人类活动对野生种群造成的巨大压力,必须根据科学知识采取协同保护策略。由于多样性中心集中在库蒙地区,等位基因丰富度较高,我们建议优先对该地区的种群进行就地保护。此外,从基因多样的种群中收获种子,用于种植园或异地田间基因库也很重要。由于其果实大多从野外采摘,因此需要向当地社区进行宣传,鼓励他们建立私人种植园或果园。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

SSR-based genetic analysis depicted high gene diversity with subtle population genetic structure in Myrica esculenta, a high-valued edible fruit tree of the Western Himalayas

SSR-based genetic analysis depicted high gene diversity with subtle population genetic structure in Myrica esculenta, a high-valued edible fruit tree of the Western Himalayas

Key message

SSR-based characterization revealed a high genetic diversity, negligible genetic differentiation, insignificant inbreeding, and subtle genetic structure in Myrica esculenta populations of Western Himalayas, indicating a high adaptive and evolutionary potential.

Myrica esculenta is a high-valued wild edible fruit-bearing tree of sub-Himalayan region experiencing noticeable deterioration in its stand structure. This study aimed to unveil the gene diversity and spatial genetic structure of M. esculenta populations in the Western Himalayas under the state of Uttarakhand (India) using nuclear simple sequence repeat (SSR) markers. By investigating 23 populations at 8 SSR loci, high genetic diversity (expected heterozygosity, He = 0.90; allelic richness, Ar = 13.65) was recorded with little genetic differentiation (fixation index, FST = 0. 025). Bayesian analysis revealed a weak genetic structure with no discrete genetic lineages from which ancestry can be inferred. Furthermore, genetic clustering among populations was conspicuous but not in accordance with their spatial distribution. Geographically separated populations are genetically well connected due to long-distance gene flow via pollen as well as seed. Hence, the meta-population in the Western Himalayas demonstrated a subtle spatial genetic structure with negligible genetic divergence, where genetic admixing is not modulated by geographical constraints. Viewing the substantial anthropogenic pressure over wild populations, conservation strategies must be adopted synergistically based on scientific knowledge. As center of diversity is centered toward the Kumaon region capturing higher allelic richness, we recommend the populations of this region to be prioritized for in situ conservation. Further, it will be important to harvest seeds from genetically diverse populations for raising plantations or ex situ field gene banks. As its fruits are mostly harvested from wild, local communities need to be sensitized and encouraged to establish private plantations or orchards.

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来源期刊
Trees
Trees 农林科学-林学
CiteScore
4.50
自引率
4.30%
发文量
113
审稿时长
3.8 months
期刊介绍: Trees - Structure and Function publishes original articles on the physiology, biochemistry, functional anatomy, structure and ecology of trees and other woody plants. Also presented are articles concerned with pathology and technological problems, when they contribute to the basic understanding of structure and function of trees. In addition to original articles and short communications, the journal publishes reviews on selected topics concerning the structure and function of trees.
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