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Development of the coelomic cavities in larvae of the living isocrinid sea lily Metacrinus rotundus
Author(s) -
Amemiya Shonan,
Hibino Taku,
Minokawa Takuya,
Naruse Kiyoshi,
Kamei Yasuhiro,
Uemura Isao,
Kiyomoto Masato,
Hisanaga Shinichi,
Kuraishi Ritsu
Publication year - 2019
Publication title -
acta zoologica
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.414
H-Index - 37
eISSN - 1463-6395
pISSN - 0001-7272
DOI - 10.1111/azo.12274
Subject(s) - coelom , anatomy , biology , ectoderm , embryo , embryogenesis , fishery
Coelomogenesis in the isocrinid sea lily, Metacrinus rotundus , is described through the swimming larval stages. After the late gastrula stage, the archenteron separates from the ectoderm to form an archenteral sac, which develops into a dumbbell shape consisting of anterior and posterior lobes, and a middle part connecting both lobes. The anterior and posterior lobes, and the middle part, become separated into an axo‐hydrocoel, the left and right somatocoels and an enteric sac, respectively. The hydrocoel forms from the left lower edge of the axo‐hydrocoel and becomes separated from the axocoel by the late dipleurula stage, when chambered organs and coelom X bud off from the anterior tip of the right and left somatocoels, respectively. Coelom X does not occur in comatulid crinoids (feather stars), and its fate is unclear. The pore canal extends from the axocoel. The hydrocoel differentiates into a crescent shape at the overtime semidoliolaria stage, a few days after the semidoliolaria becomes competent to settle. Coelomogenesis in M. rotundus is much simpler than in the comatulids and probably represents the ancestral mode of the crinoids. As each portion of the dumbbell sac differentiates almost in situ into each coelom, presumptive fates in the sac are easily followed in M. rotundus .