2bRAD 揭示了地中海猿藻类 Parazoanthus axinellae (Schmidt, 1862) 种群间的精细遗传结构

IF 2.7 2区 生物学 Q1 MARINE & FRESHWATER BIOLOGY
Marko Terzin, Adriana Villamor, Lorenzo Marincich, Kenan Matterson, Maria Grazia Paletta, Valentina Bertuccio, Giorgio Bavestrello, Lisandro Benedetti Cecchi, Elisa Boscari, Carlo Cerrano, Giovanni Chimienti, Leonardo Congiu, Simonetta Fraschetti, Francesco Mastrototaro, Massimo Ponti, Roberto Sandulli, Eva Turicchia, Lorenzo Zane, Marco Abbiati, Federica Costantini
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引用次数: 0

摘要

藻类 Parazoanthus axinellae(施密特,1862 年)是地中海珊瑚群中一种广泛分布的珊瑚物种,有两种形态:它们有两种形态:纤细型和粗壮型,在体型、颜色和喜好的底质方面各不相同。由于这些明显的差异,细长型和粗壮型被假定为两个物种。在此,我们利用 2bRAD 获得了全基因组的单核苷酸多态性(SNPs),以研究细长型和粗壮型的遗传分化及其种群结构。研究人员在意大利海岸线的八个地点共采集了 101 个 axinellae 标本,并对其进行了基因分型。在四个地点采集到了两种形态的样本。利用 2bRAD 全基因组 SNPs 评估了两种形态之间的遗传差异(1319 个 SNPs),以及细长型(1926 个 SNPs)和粗壮型(1871 个 SNPs)形态内部的种群连接模式。在 Slender 和 Stocky 形态之间发现了明显而一致的分化。分布广泛的 Slender 形态型表现出较高的种群混合模式,而 Stocky 形态型的种群在区域范围内表现出较强的遗传结构。在 P. axinellae Slender 和 Stocky 形态之间观察到的强烈遗传分化提供了更多证据,表明这些形态可归属于不同的物种,尽管还需要进一步的形态学和生态学研究来验证这一假设。我们的研究强调了在为管理和保护目的进行遗传连接性研究时,解决有分类学问题的群体(如 P. axinellae 物种群)内部的系统发育和分类学差异的重要性。珊瑚虫的颜色可以让读者直观地将其与 Parazoanthus axinellae 形态类型联系起来,橙色代表粗壮形态类型,黄色代表细长形态类型。双向箭头代表珊瑚个体间的基因流动,箭头的数量和粗细与基因流动率的强度相对应。红色虚线代表细长型和粗壮型形态之间潜在的生殖隔离。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

2bRAD reveals fine-scale genetic structuring among populations within the Mediterranean zoanthid Parazoanthus axinellae (Schmidt, 1862)

2bRAD reveals fine-scale genetic structuring among populations within the Mediterranean zoanthid Parazoanthus axinellae (Schmidt, 1862)

The zoanthid Parazoanthus axinellae (Schmidt, 1862) is a widespread coral species in the Mediterranean coralligenous assemblages where two morphotypes are found: Slender and Stocky, differing in size, color, and preferred substrate. Due to these marked differences, Slender and Stocky morphotypes were hypothesized to be two species. Here, we used 2bRAD to obtain genome‐wide genotyped single nucleotide polymorphisms (SNPs) to investigate the genetic differentiation between Slender and Stocky morphs, as well as their population structure. A total of 101 specimens of P. axinellae were sampled and genotyped from eight locations along the Italian coastline. In four locations, samples of the two morphotypes were collected in sympatry. 2bRAD genome-wide SNPs were used to assess the genetic divergence between the two morphotypes (1319 SNPs), and population connectivity patterns within Slender (1926 SNPs) and Stocky (1871 SNPs) morphotypes. Marked and consistent differentiation was detected between Slender and Stocky morphotypes. The widely distributed Slender morphotype showed higher population mixing patterns, while populations of the Stocky morphotype exhibited a stronger genetic structure at a regional scale. The strong genetic differentiation observed between P. axinellae Slender and Stocky morphotypes provides additional evidence that these morphs could be attributed to different species, although further morphological and ecological studies are required to validate this hypothesis. Our study highlights the importance of resolving phylogenetic and taxonomic disparities within taxonomically problematic groups, such as the P. axinellae species complex, when performing genetic connectivity studies for management and conservation purposes.

Graphical Abstract

Schematic overview of the main genetic structuring patterns observed in this study. Coral polyps were colored to intuitively associate the reader to Parazoanthus axinellae morphotypes, with orange tones being attributed to the Stocky morphotype, and yellow tones to the Slender morphotype. Bidirectional arrows represent gene flow between coral individuals, with the number and thickness of arrows corresponding to the intensity of gene flow rates. The red dashed line represents the potential reproductive isolation between Slender and Stocky morphs

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来源期刊
Coral Reefs
Coral Reefs 生物-海洋与淡水生物学
CiteScore
6.80
自引率
11.40%
发文量
111
审稿时长
4-8 weeks
期刊介绍: Coral Reefs, the Journal of the International Coral Reef Society, presents multidisciplinary literature across the broad fields of reef studies, publishing analytical and theoretical papers on both modern and ancient reefs. These encourage the search for theories about reef structure and dynamics, and the use of experimentation, modeling, quantification and the applied sciences. Coverage includes such subject areas as population dynamics; community ecology of reef organisms; energy and nutrient flows; biogeochemical cycles; physiology of calcification; reef responses to natural and anthropogenic influences; stress markers in reef organisms; behavioural ecology; sedimentology; diagenesis; reef structure and morphology; evolutionary ecology of the reef biota; palaeoceanography of coral reefs and coral islands; reef management and its underlying disciplines; molecular biology and genetics of coral; aetiology of disease in reef-related organisms; reef responses to global change, and more.
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