Genetic connectivity in the spotted rose snapper Lutjanus guttatus (Lutjaniformes: Lutjanidae) between Mexico and Panama throughout the Tropical Eastern Pacific
N. Díaz-Viloria, Adriana Max-Aguilar, Mailin I. Rivera-Lucero, E. Espino-Barr, Nicole Reguera-Rouzaud, Andrea Casaucao-Aguilar, R. Pérez-Enríquez
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引用次数: 0
Abstract
Abstract The spotted rose snapper, Lutjanus guttatus, is an important fishery species with high potential for aquaculture. Genetic characterization of its natural populations is necessary to avoid stock collapse and loss of genetic diversity. Previous studies carried out in the Tropical Eastern Pacific (TEP), however, have shown contrasting results in the genetic structure of fish populations, particularly in species of Lutjanidae. Therefore, to understand the genetic structure of spotted rose snapper in the TEP, twelve microsatellite loci were used to assess the genetic diversity and explore the hypothesis of population genetic structure in samples of the species collected throughout the TEP. Fin clips from 186 sampled individuals (27 to 49 per site) were analyzed from five sites in the three regional biogeographic provinces, delimited by shoreline reef habitat breaks: La Paz (Cortez province), Colima and Oaxaca (Mexican province), Chiriqui and Port of Panama (Panamic province). Results of global Analysis of Molecular Variance (AMOVA), population pairwise FST, hierarchical AMOVA, and a discriminant analysis of principal components (DAPC) reflected a panmictic population involving the entire set of sampled sites. The role of larval dispersal, post-recruitment migration, and marine current dynamics as drivers of genetic connectivity in this species is discussed.
摘要斑玫瑰鲷(Lutjanus guttatus)是一种重要的渔业物种,具有很高的养殖潜力。对其自然种群进行遗传表征是避免种群崩溃和遗传多样性丧失的必要条件。然而,先前在热带东太平洋(TEP)进行的研究显示了鱼类种群遗传结构的对比结果,特别是在Lutjanidae物种中。因此,为了了解斑点玫瑰鲷在TEP的遗传结构,利用12个微卫星位点对整个TEP采集的物种样本进行遗传多样性评估,并探讨群体遗传结构假说。从3个区域生物地理省的5个地点(La Paz (Cortez省)、Colima和Oaxaca(墨西哥省)、Chiriqui和Port of Panama (Panamic省))采集186只样本(每个地点27 - 49只)的鳍片进行分析。总体分子方差分析(AMOVA)、种群配对FST、分层AMOVA和主成分判别分析(DAPC)的结果反映了一个涉及整个采样点的泛型种群。讨论了该物种的幼虫扩散、招募后迁移和海流动态作为遗传连通性驱动因素的作用。