Deep genetic divergence among bluefish (Pomatomus saltatrix) of the Southwestern Atlantic

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Livia Bonetti Villela, Pedro Hollanda Carvalho, Anderson de Vilasboa, Ghennie Tatiana Rodríguez‐Rey, Frederico Henning, Thomas Grothues, Antonio Mateo Solé‐Cava
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Abstract

Neglected cryptic diversity can lead to the permanent loss of locally adapted alleles, which can reduce resilience to rapid environmental change. It can also result in overestimation of fisheries stock sizes that can result from treating different species as if they belonged to one. Bluefish (Pomatomus saltatrix) is considered a circumtropical and subtropical species and an important fishery resource all over the world. Differences in ecologically relevant traits are observed among isolated populations. Also, in the Southwestern Atlantic, molecular data suggest multiple populations, but these are treated as a single fish stock by regulatory agencies due to a lack of definitive information. We used whole mitogenome sequences, nuclear (rho) and mitochondrial (coxI and cytb) genes, as well as microsatellites to investigate historical and current genetic population structure and parameters of bluefish in the Western Atlantic. A total of 263 samples were collected along the Brazilian coast and in the USA (New Jersey, Northwest Atlantic). Data revealed the existence of two evolutionarily significant units (ESU) of bluefish along the South American coast, later confirmed by whole mitogenome sequencing of both haplogroups. These two ESUs have a mostly parapatric distribution, with some areas of overlap, which vary along the year. We also conducted seasonal sampling in Brazil to investigate migration patterns. ESUs occur mostly north and south of parallel 23° 40′ S, with an overlap area that varied seasonally. The level of differentiation between those two ESUs in the SW Atlantic, even in sympatry, is as high as that found between them and those from the NW Atlantic and Europe. Parapatric distribution and restricted gene flow suggest the existence of ecological barriers and local adaptation. The splitting of an ancient population from the Southwestern Atlantic into two putative species is important to understand bluefish evolutionary diversification and has implications for fishery regulatory measures in Brazil.
西南大西洋青鱼(Pomatomus saltatrix)之间的深度遗传差异
被忽视的隐性多样性会导致适应当地环境的等位基因永久性丧失,从而降低对快速环境变化的适应能力。它还会导致渔业种群规模被高估,因为将不同物种视为同一物种可能会造成这种情况。青鱼(Pomatomus saltatrix)被认为是环热带和亚热带鱼种,是全世界重要的渔业资源。在孤立的种群之间,可以观察到生态相关特征的差异。此外,在西南大西洋,分子数据表明存在多个种群,但由于缺乏确切信息,监管机构将这些种群视为单一鱼类种群。我们利用整个有丝分裂基因组序列、核(rho)和线粒体(coxI 和 cytb)基因以及微卫星来研究西大西洋青鱼历史和当前的遗传种群结构和参数。研究人员在巴西沿岸和美国(新泽西州、西北大西洋)共采集了 263 个样本。数据显示,南美沿岸存在两个具有重要进化意义的青鱼单元(ESU),后经两个单倍群的全有丝分裂基因组测序证实。这两个重要进化单元主要分布在同域,但也有一些重叠区域,这些区域随年份而变化。我们还在巴西进行了季节性采样,以调查迁徙模式。ESU主要分布在南纬23°40′的南北两侧,重叠区域随季节变化。西南大西洋的这两个ESU之间的分化程度,即使在同域中,也与它们与西北大西洋和欧洲的ESU之间的分化程度一样高。同域分布和基因流动受限表明存在生态障碍和局部适应。西南大西洋的一个古老种群分裂为两个假定物种,这对了解青鱼的进化多样性非常重要,对巴西的渔业监管措施也有影响。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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