利古里亚海潮间带大理石纹蟹(腕足目:蟹科)混沌遗传斑块机制研究。

IF 3.4 Q1 Agricultural and Biological Sciences BMC Evolutionary Biology Pub Date : 2020-08-24 DOI:10.1186/s12862-020-01672-x
A Iannucci, S Cannicci, I Caliani, M Baratti, C Pretti, S Fratini
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引用次数: 7

摘要

背景:由于缺乏对连通性的幼虫扩散成分的详尽了解,对海洋群落动态和种群结构的研究受到限制。遗传数据是了解海洋领域这一过程的有力工具。在处理海洋生态系统中的分散和连通性时,许多证据表明遗传结构的模式无法用任何明确的地理趋势来解释,并且可能表现出时间上的不稳定性。这种情况通常被称为混沌遗传补丁,其驱动机制被认为是选择、局部种群动态的时间变化、随机繁殖成功和集体分散。在这项研究中,我们重点研究了居住在地中海、黑海和东大西洋岩石海岸的大理石蟹Pachygrapsus marmoratus,它们通过浮游幼虫散布约1个月。尽管在物种分布范围内描述了明确的系统地理模式,但在局部尺度上,P. marmoratus表现出出乎意料的低连通性水平。这被解释为微妙的地理障碍的影响或由于大量繁殖成功。为了验证混乱的遗传斑块情景,并探索其背后的机制,我们计划在地中海西部孤立的利古里亚海进行调查,并在11个微卫星位点对321个个体进行基因分型。结果:利古里亚海样本间存在遗传异质性,存在与原始种群不匹配的遗传集群,种群间存在轻微差异,地理距离最远的种群遗传最相似。此外,每个位点的个体都被分配到所有的遗传簇中。我们还记录了自我招募的证据和高于预期的现场内亲属关系。结论:总体而言,我们的研究结果表明,我们在利古里亚海种群中发现的混乱遗传斑块是繁殖成功率、大量幼虫分散和局部幼虫滞留差异的综合结果。本研究将p.a marmoratus定义为海洋产卵动物的一个例子,其基因库在种群水平上不是同质的,而是在复杂和动态的生态过程中产生的微小分化的遗传斑块的混乱马赛克中分裂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Investigation of mechanisms underlying chaotic genetic patchiness in the intertidal marbled crab Pachygrapsus marmoratus (Brachyura: Grapsidae) across the Ligurian Sea.

Background: Studies on marine community dynamics and population structures are limited by the lack of exhaustive knowledge on the larval dispersal component of connectivity. Genetic data represents a powerful tool in understanding such processes in the marine realm. When dealing with dispersion and connectivity in marine ecosystems, many evidences show patterns of genetic structure that cannot be explained by any clear geographic trend and may show temporal instability. This scenario is usually referred to as chaotic genetic patchiness, whose driving mechanisms are recognized to be selection, temporal shifts in local population dynamics, sweepstakes reproductive success and collective dispersal. In this study we focused on the marbled crab Pachygrapsus marmoratus that inhabits the rocky shores of the Mediterranean Sea, Black Sea and East Atlantic Ocean, and disperses through planktonic larvae for about 1 month. P. marmoratus exhibits unexpectedly low connectivity levels at local scale, although well-defined phylogeographic patterns across the species' distribution range were described. This has been explained as an effect of subtle geographic barriers or due to sweepstake reproductive success. In order to verify a chaotic genetic patchiness scenario, and to explore mechanisms underlying it, we planned our investigation within the Ligurian Sea, an isolated basin of the western Mediterranean Sea, and we genotyped 321 individuals at 11 microsatellite loci.

Results: We recorded genetic heterogeneity among our Ligurian Sea samples with the occurrence of genetic clusters not matching the original populations and a slight inter-population divergence, with the geographically most distant populations being the genetically most similar ones. Moreover, individuals from each site were assigned to all the genetic clusters. We also recorded evidences of self-recruitment and a higher than expected within-site kinship.

Conclusions: Overall, our results suggest that the chaotic genetic patchiness we found in P. marmoratus Ligurian Sea populations is the result of a combination of differences in reproductive success, en masse larval dispersion and local larval retention. This study defines P. marmoratus as an example of marine spawner whose genetic pool is not homogenous at population level, but rather split in a chaotic mosaic of slightly differentiated genetic patches derived from complex and dynamic ecological processes.

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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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