Sora Hatta scite author profile

Sora Hatta

2Publications

32Citation Statements Received

113Citation Statements Given

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Tokyo University of Marine Science and Technology

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Larval development and emigration behaviour during sea-to-land transition of the land hermit crabCoenobita brevimanusDana, 1852 (Crustacea: Decapoda: Anomura: Coenobitidae) under laboratory conditions

Hamasaki

Kato

Hatta

et al. 2014

Journal of Natural History

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To determine the early life history of the land hermit crab Coenobita brevimanus Dana, 1852, larvae were cultured individually in the laboratory. The zoeal and the megalopal stages are described and illustrated. The larvae developed through four planktonic zoeal stages to the megalopal stage. The major differences in the zoeal characters between C. brevimanus and other described Coenobita species were found in the armature of the pleomeres, whereas the character of pleomeres of C. brevimanus zoeae is the same as that of the coconut crab Birgus latro, a different genus in the same family. Morphological similarity was also found in segmentations of antennules and antennae in megalopae between C. brevimanus and the coconut crab. Megalopae of C. brevimanus were cultured in containers holding seawater and a hard substrate. These crabs migrate from the sea to land after developing a habit of acquiring gastropod shells.

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Emigration behavior and molting during the sea‐to‐land transition of terrestrial hermit crabs under laboratory conditions

Hamasaki

Hatta

Ishikawa

et al. 2015

Invertebrate Biology

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Terrestrial hermit crabs in the family Coenobitidae (genera Coenobita and Birgus) must migrate onto land after completing a pelagic larval stage in the ocean. Better knowledge of emigration behavior would assist in the conservation and management of coenobitid populations by helping identify and protect the habitats they need to complete their life cycles. We cultured laboratory-born individuals of five coenobitid species (Coenobita cavipes, C. purpureus, C. rugosus, C. violascens, and Birgus latro) from megalopae to early juveniles (first, second, and/or third crabs) in vessels containing seawater and a hard substrate, and analyzed their behavior and molting in conjunction with our published data for C. brevimanus. Our results confirm that the coenobitids migrated from sea to land at the megalopal stage. Megalopae and early juveniles tended to select shells based on their body size. Inland-dwelling coenobitids, such as C. brevimanus, C. cavipes, and B. latro, had a longer duration from landing to first molt and had a prolonged first crab intermolt period compared with those of the beach-dwelling coenobitids C. purpureus, C. rugosus, and C. violascens, probably because of the adaptive traits for migrating to inland habitats. Little burrowing behavior was observed by megalopae of B. latro, but they had a strong tendency to be cryptic under shelters. Additionally, megalopae and early juveniles of Coenobita spp. created and utilized burrows somewhat differently. Our results suggest that coenobitids require specific microhabitats for completing their early life stages in the wild. In particular, megalopae of B. latro may need structurally complex refuges to migrate from the sea.

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Sora Hatta

Larval development and emigration behaviour during sea-to-land transition of the land hermit crabCoenobita brevimanusDana, 1852 (Crustacea: Decapoda: Anomura: Coenobitidae) under laboratory conditions

Emigration behavior and molting during the sea‐to‐land transition of terrestrial hermit crabs under laboratory conditions

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