Morphological and molecular evidence of cryptic speciation in sympatric colour morphotypes of Mycale (Carmia) cecilia (Porifera: Poecilosclerida) from the Mexican Pacific

IF 0.8 4区生物学 Q4 MARINE & FRESHWATER BIOLOGY

Scientia Marina Pub Date : 2024-03-15 DOI:10.3989/scimar.05339.082

Ana Castillo-Páez, R. Llera‐Herrera, J. A. Cruz-Barraza

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引用次数: 0

Abstract

Identifying cryptic species is pivotal for understanding marine biodiversity and optimizing strategies for its conservation. A robust understanding of poriferan diversity is a complex endeavour. It has also been extremely hampered by the high phenotypic plasticity and the limited number of diagnostic characters. Mycale (Carmia) cecilia has different body colours, even among individuals living together. We tested whether the colour variation could be due to polymorphism, phenotypic plasticity or cryptic speciation. Phylogenetic reconstructions of nuclear and mitochondrial loci were congruent. Individuals of different body colour did not cluster together and had high levels of genetic divergence. Furthermore, the green morphotype clustered in almost all reconstructions with Mycale (C.) phyllophila, as both showed higher gene similarity at the transcriptomic level (public transcriptome). Morphologically, the green individuals consistently showed discrepancies from the red ones. These results suggest that all individuals with the same body colour, either red or green, correspond to the same species, while individuals with different body colours probably belong to different species. These results reveal high levels of morphologic and genetic diversity, which could have important implications for what is known as M. (C.) cecilia and the Mycalidae systematics.

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墨西哥太平洋同域纤毛虫（Mycale (Carmia) cecilia）（多孔动物：Poecilosclerida）彩色形态型隐性物种的形态学和分子证据

识别隐蔽物种对于了解海洋生物多样性和优化海洋生物保护战略至关重要。深入了解多孔动物的多样性是一项复杂的工作。表型的高度可塑性和有限的诊断特征也极大地阻碍了这项工作。Mycale（Carmia）纤毛虫具有不同的体色，即使是生活在一起的个体也是如此。我们测试了这种颜色变化是否可能是由于多态性、表型可塑性或隐性物种分化造成的。核基因座和线粒体基因座的系统发育重建是一致的。不同体色的个体并不聚集在一起，而且遗传差异很大。此外，在几乎所有的重建中，绿色形态的个体都与Mycale (C.) phyllophila聚集在一起，因为两者在转录组水平（公共转录组）上表现出较高的基因相似性。从形态上看，绿色个体与红色个体始终存在差异。这些结果表明，所有体色相同的个体，无论是红色还是绿色，都属于同一物种，而体色不同的个体可能属于不同物种。这些结果揭示了高度的形态和遗传多样性，可能对已知的栉水母（M. (C.) cecilia）和真菌科系统学具有重要影响。

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来源期刊

Scientia Marina 生物-海洋与淡水生物学

CiteScore

2.10

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Scientia Marina is the successor to Investigación Pesquera, a journal of marine sciences published since 1955 by the Institut de Ciències del Mar de Barcelona (CSIC). Scientia Marina is included in the Science Citation Index since 1998 and publishes original papers, reviews and comments concerning research in the following fields: Marine Biology and Ecology, Fisheries and Fisheries Ecology, Systematics, Faunistics and Marine Biogeography, Physical Oceanography, Chemical Oceanography, and Marine Geology. Emphasis is placed on articles of an interdisciplinary nature and of general interest.