基于线粒体 DNA D 环和细胞色素 b 序列变异的波罗的海湖区淡水鳗的遗传多样性和单倍型分布

Diversity Pub Date : 2024-08-31 DOI:10.3390/d16090522
Jeļena Oreha, Aleksandra Morozova, Alberts Garkajs, Muza Kirjušina, Inese Gavarāne, Vladimir G. Kostousov, Mihails Pupins, Nataļja Škute
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摘要

欧洲鳗鲡(Anguilla anguilla (L.))是一种独特的溯河洄游性极性鱼类,也是唯一被列为 "极度濒危 "的鳗鲡物种。波罗的海湖区有自然繁殖和引进的鳗鱼。该地区自然散布的鳗鱼的位置和数量基线存在很大的不确定性。人们对波罗的海国家欧洲鳗鱼种群的遗传结构知之甚少。估计种群遗传结构对于有效管理自然招募和引进的鳗鱼非常重要。研究人员利用两个线粒体区域调查了来自 11 个水体的鳗鱼样本内部和样本之间的遗传结构。这项研究揭示了新的、独特的和广泛分布的单倍型。所研究的波罗的海湖区鳗鱼种群显示出很高的遗传多样性,这可能是密集的重新放养计划的结果。在两个线粒体区域都发现了具有鳗鲡特征的序列。了解全球鳗鱼种群的遗传结构对保护工作至关重要。在限制自然迁徙的水体中重新放养鳗鱼会导致世界鳗鱼基因库多样性的丧失。
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Genetic Diversity and Distribution of Haplotypes of Freshwater Eel in Baltic Lakeland Based on Mitochondrial DNA D-Loop and Cytochrome b Sequence Variation
The European eel (Anguilla anguilla (L.)) is a unique catadromous euryhaline fish and the only anguillid eel species classified as ‘critically endangered’. The Baltic Lakeland area contains naturally recruited and introduced eels. There is great uncertainty regarding a baseline for the location and number of naturally dispersed eels in the region. Little is known about the genetic structure of the European eel populations in Baltic countries. The estimation of population genetic structure is important for the efficient management of naturally recruited and introduced eels. Two mitochondrial regions were used to investigate the genetic structure within and between eel samples from 11 waterbodies. In this study, new, unique, and widely distributed haplotypes were revealed. The studied eel population in the Baltic Lakeland shows high genetic diversity, which is possibly a result of intensive restocking programs. Sequences characterized for Anguilla rostrata were revealed in both mitochondrial regions. Understanding the genetic structure of eel populations worldwide is crucial for conservation efforts. Eel restocking in waterbodies where natural migration is restricted contributes to diversity loss for the world gene pool of eels.
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