南极鱼类Lepidonotothen属和Nototheniops属的物种鉴定和种群遗传学

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
L. Schiavon, E. Negrisolo, Alessandra Battistotti, M. Lucassen, M. Damerau, L. Harms, E. Riginella, Michael Matschiner, L. Zane, Mario La Mesa, C. Papetti
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引用次数: 0

摘要

准确的物种识别对于评估生态系统中的生物多样性和物种丰富度至关重要,这些生态系统受到近期快速环境变化的威胁,例如大多数南极水域的变暖。Lepidonotothen物种复合体包括栖息在南极半岛、斯科细亚弧和亚南极岛屿的底栖类脊索鱼类,分布在环南极地区。这一群体中的物种确定往往存在问题。特别是,鳞翅目鳞片和鳞翅目刺皮是否作为单独的物种有效一直受到质疑。在这项研究中,我们通过三种不同的标记(ND2和tRNA线粒体基因以及一组16个核微卫星)分析了该复合体中四种名义南极物种(L.kempi、L.squamifrons、Nototheniops larseni、Notothoniops nudfrons)之间的遗传变异。我们测试了在形态学上被分配到L.kempi的个体是否显示出与L.squamifrons的遗传分离。我们的分析表明,L.kempi和L.squamifrons之间缺乏分化。然而,在南乔治亚州附近的沙格岩群岛发现了一个基因不同的鳞片乳杆菌种群。众所周知,南极和亚南极岛屿是许多神秘物种的家园,进一步的研究将阐明我们发现的基因分化种群是否可能起源于这种背景,是否可以被视为一个早期物种。我们的分析有助于进一步描述南大洋最丰富的鱼类亚目的物种组成,南大洋是受气候变化威胁最严重的地区之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Species identification and population genetics of the Antarctic fish genera Lepidonotothen and Nototheniops (Perciformes, Notothenioidei)
Accurate species identification is essential to assess biodiversity and species richness in ecosystems threatened by rapid and recent environmental changes, such as warming in most Antarctic waters. The Lepidonotothen species complex comprises demersal notothenioid fishes which inhabit the shelf areas of the Antarctic Peninsula, the Scotia Arc and sub‐Antarctic islands with a circum‐Antarctic distribution. Species determination in this group has often been problematic. In particular, whether Lepidonotothen squamifrons and Lepidonotothen kempi are valid as separate species has been questioned. In this study, we analysed the genetic variation among four nominal southern polar species within this complex (L. kempi, L. squamifrons, Nototheniops larseni, Nototheniops nudifrons) by means of three different markers (ND2 and tRNA mitochondrial genes and a panel of 16 nuclear microsatellites). We tested whether individuals morphologically assigned to L. kempi showed genetic separation from L. squamifrons. Our analyses indicated a lack of differentiation between L. kempi and L. squamifrons. However, a genetically distinct population was found for L. squamifrons at the Shag Rocks islands near South Georgia. Antarctic and sub‐Antarctic islands are known to be home to many cryptic species and further studies will elucidate if the genetically differentiated population we found potentially originated from this context and can be considered an incipient species. Our analysis contributes to further characterize the species composition of the most abundant fish suborder in the Southern Ocean, which is among the regions most threatened by climate change.
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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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