Andrés Castro-García, Erwan Delrieu-Trottin, Pablo Saenz-Agudelo, Cristian Rapu-Edmunds, Guido Plaza, Federico Márquez, Mauricio F. Landaeta
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Principal Component Analysis (PCA) of sagittal otoliths elucidated significant morphospace variation among species, with the first two PCs explaining 60.3% of the total variance. PC1 distinguished between elongated sagittal shapes (e.g., <em>P. fuentesi</em>) and robust sagittae (e.g., <em>T. lutescens</em>), while PC2 correlated with otolith roundness, delineating variations within species. Canonical variate analysis further highlighted differences in otolith shape, with significant variations detected among all species. The Discriminant function analysis showed high levels of discrimination accuracy for most of species’ pairs. Except for <em>C. debueni-P. fuentesi</em> (89%) and <em>C. debueni-T. lutescens</em> (96%), all other species pairs achieved 100% discrimination, highlighting the reliability of otolith shape as a distinguishing characteristic for the studied species. 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引用次数: 0
摘要
鱼类耳石的形状为了解鱼类物种的分类、系统发育和生态特征提供了宝贵的信息。本研究旨在利用几何形态计量学和老化方法,评估和比较栖息于太平洋东南部拉帕努伊(复活节岛)的四种唇鱼(Anampses femininus、Coris debueni、Pseudolabrus fuentesi 和 Thalassoma lutescens)耳石形状的表型变异。根据耳石结构进行的年龄估计表明,采集到的标本均为成体,年龄在 1 至 3 岁之间。几何形态分析表明,耳石宽度的变化导致了不同的形态,这种变化虽小但却很明显(5.40%)。矢状耳石的主成分分析(PCA)揭示了物种间显著的形态空间差异,前两个 PC 解释了总方差的 60.3%。PC1 可区分拉长的矢状体(如 P. fuentesi)和粗壮的矢状体(如 T. lutescens),而 PC2 与耳石的圆度相关,可划分出物种内部的差异。典型变量分析进一步突出了耳石形状的差异,在所有物种之间都发现了显著的差异。判别函数分析表明,大多数物种配对的判别准确率都很高。除 C. debueni-P. fuentesi(89%)和 C. debueni-T. lutescens(96%)外,其他物种对的辨别率均达到 100%,这突出表明耳石形状作为所研究物种的区分特征是可靠的。总之,我们的研究结果强调了耳石形状分析在描述和区分拉帕努伊岛唇鳃亚纲物种方面的价值。这提供了潜在的应用,例如在南太平洋的这个孤岛附近识别大型鱼类或鸟类捕食者消化系统中的猎物,或进行古动物研究。
Otolith shape variability of labrid fish from Rapa Nui (Easter Island), southeastern Pacific
Fish otolith shape provides valuable insights into the taxonomic, phylogenetic, and ecological traits of fish species. This study aimed to assess and compare the phenotypic variation in otolith shape among four labrid species (Anampses femininus, Coris debueni, Pseudolabrus fuentesi and Thalassoma lutescens) inhabiting Rapa Nui (Easter Island) in the southeastern Pacific Ocean, utilizing geometric morphometrics and aging methods. Age estimation based on otolith structure indicated that collected specimens were adults, ranging between 1 and 3 years old. Allometric analysis revealed low but significant variation (5.40%), primarily driven by changes in otolith width, resulting in distinct morphologies. Principal Component Analysis (PCA) of sagittal otoliths elucidated significant morphospace variation among species, with the first two PCs explaining 60.3% of the total variance. PC1 distinguished between elongated sagittal shapes (e.g., P. fuentesi) and robust sagittae (e.g., T. lutescens), while PC2 correlated with otolith roundness, delineating variations within species. Canonical variate analysis further highlighted differences in otolith shape, with significant variations detected among all species. The Discriminant function analysis showed high levels of discrimination accuracy for most of species’ pairs. Except for C. debueni-P. fuentesi (89%) and C. debueni-T. lutescens (96%), all other species pairs achieved 100% discrimination, highlighting the reliability of otolith shape as a distinguishing characteristic for the studied species. Overall, our findings emphasize the value of otolith shape analysis for characterizing and distinguishing Rapa Nui labrid species. This offers potential applications such as identifying prey within the digestive systems of large fish or bird predators in the vicinity of this isolated island in the South Pacific Ocean or archaeofauna studies.