Colour variation of the intertidal hermit crab Clibanarius virescens considering growth stage, geographic area in the Indo–West Pacific Ocean, and molecular phylogeny

Members of Clibanarius virescens show considerable intraspecific colour variation, including colouration of the second/third pereopods (green/white) and the dactyls of the second/third pereopods (with or without dark bands/patches). However, factors inducing these colour variations have not yet been...

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Bibliographic Details
Published in:Journal of the Marine Biological Association of the United Kingdom 2020-11, Vol.100 (7), p.1107-1121
Main Authors: Yoshikawa, Akihiro, Ikeo, Kazuho, Imoto, Junichi, Jaingam, Wachirah, Putri, Lily Surayya Eka, Mardiansyah, Nakano, Tomoyuki, Shimomura, Michitaka, Asakura, Akira
Format: Article
Language:English
Subjects:
Adaptation
Animal behavior
Clibanarius virescens
Color
Colour
Crustaceans
Cytochrome-c oxidase
Cytochromes
Geographical distribution
Growth stage
Marine animals
Marine crustaceans
Marine organisms
Phylogeny
Population genetics
Shellfish
Speciation
Tropical climate
Tropical environment
Tropical environments
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Summary:Members of Clibanarius virescens show considerable intraspecific colour variation, including colouration of the second/third pereopods (green/white) and the dactyls of the second/third pereopods (with or without dark bands/patches). However, factors inducing these colour variations have not yet been elucidated. Here, we investigated the occurrence of colour variation in this species with particular emphasis on change of colouration associated with growth stage and region in specimens from tropical/subtropical to warm temperate areas in the Indo–West Pacific, including evidence from molecular phylogeny based on the cytochrome c oxidase subunit I (COI). We have, then, clarified that the colouration on the pereopod dactyls gradually changed from solid colour (yellow/white) to having dark-coloured area(s) or transverse band(s) as a result of the growth stage. The frequency of occurrence of the solid colour dactyls was higher than those of other colour types in tropical regions. Our results also indicated that the white ambulatory leg type was the colouration type that was frequently seen in juvenile stages. However, significant genetic differences were not detected between each colouration determined by molecular analysis of samples from 14 localities in the Indo-West Pacific region; in contrast, two genetically differentiated regional populations (North Australia; Phuket, Thailand; and Lombok, Indonesia) were detected. The present study, therefore, emphasizes the necessity for further study on the colour variation of marine animals focusing on growth stages and regional differences, with molecular data to facilitate the research on adaptation and/or speciation, especially in geographically widely distributed species.
ISSN:0025-3154
1469-7769
DOI:10.1017/S002531542000106X