Radula and Shell Microstructure Variations are Congruent with a Molecular Estimate of Shallow-Water Japanese Chitons.

IF 0.9 4区 生物学 Q3 ZOOLOGY Zoological Science Pub Date : 2023-10-01 DOI:10.2108/zs220060
Masato Owada
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Abstract

Variations of the radula and shell microstructures in 33 species of Japanese chiton were investigated along with molecular phylogenetic trees. The molecular phylogenetic trees indicated that Chitonida was composed of four clades, of which two clades formed Acanthochitonina and corresponded to Mopalioidea and Cryptoplacoidea, respectively, and the other clades formed Chitonina. In the radula, the shapes of the central and centro-lateral teeth and the petaloid process varied greatly among species or genera and were useful for the identification of particular species or genera. The presence of accessory and petaloid processes and the cusp shape were relatively conserved and useful for recognizing particular genera or even suborders. In the valves, four to six shell layers were found at the section, but the ventral mesostracum was not observed in Acanthochitonina. The shell microstructures in the ventral sublayer of the tegmentum varied at suborder, but those in the other layers were almost constant. The megalaesthete chamber type varied at superfamily and was helpful to identify particular families or superfamilies. The characteristics of the shell layers and shell microstructures appear to be a synapomorphy shared by the members of Acanthochitonina. The classification within Chitonina needs to be reexamined because the variations of the cusp shape and megalaesthete chamber type were relatively large and did not correspond to the current classification. Callochiton formed a sister group with Chitonida and would be equally closely related to Chitonina and Acanthochitonina because of possessing a mosaic of characteristics from both.

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Radula和外壳微观结构的变化与浅水日本几丁质的分子估计一致。
利用分子系统发育树研究了33种日本石鳖的触角和壳微结构的变化。分子系统发育树表明,Chitonida由四个分支组成,其中两个分支形成了Acanthochitonina,分别对应于Mopalioidea和Cryptoplacoidea,其他分支形成了Chitonina。在齿瓣中,中央齿和中央齿的形状以及花瓣状突起在物种或属之间变化很大,有助于识别特定的物种或属。附属物和花瓣状突起的存在以及尖端形状相对保守,有助于识别特定的属甚至亚目。在瓣叶中,在切片处发现了四到六层壳层,但在棘壳虫中没有观察到腹侧中丝层。被盖腹侧亚层的外壳微观结构在亚目中各不相同,但其他层的外壳微结构几乎不变。巨美学家的室型在超家族中各不相同,有助于识别特定的家族或超家族。壳层和壳微观结构的特征似乎是棘壳虫成员共有的突触形态。Chitonina的分类需要重新检查,因为尖瓣形状和巨美腔类型的变化相对较大,与当前的分类不一致。Callochiton与Chitonida形成了姐妹群,与Chitonina和Acanthochitonia的亲缘关系同样密切,因为两者都具有马赛克特征。
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来源期刊
Zoological Science
Zoological Science 生物-动物学
CiteScore
1.70
自引率
11.10%
发文量
59
审稿时长
1 months
期刊介绍: Zoological Science is published by the Zoological Society of Japan and devoted to publication of original articles, reviews and editorials that cover the broad field of zoology. The journal was founded in 1984 as a result of the consolidation of Zoological Magazine (1888–1983) and Annotationes Zoologicae Japonenses (1897–1983), the former official journals of the Zoological Society of Japan. Each annual volume consists of six regular issues, one every two months.
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