Abstract
To test the hypotheses explaining the sex expression of the immobile snail Quoyula monodonta, which inhabits the surfaces of the branching coral, Pocillopora eydouxi, the size, sex, gonad development, penis length and the composition of neighboring individuals were investigated between November 1994 and August 1995 in southern Taiwan. Although the snails often aggregated and formed patches, more than 50% were solitary. Females were larger than males both within a snail patch and in the whole population, but the overlap in size range was wide. The males were generally accompanied by females, whereas most females were solitary. Females were rarely (6%) found in the same patch with another female, but 35% of the males had male neighbors. Most juveniles found were also solitary. The composition pattern within a patch cannot be explained by random sampling. Gonad development of an individual was dependent on the presence and the sex of its neighbors within the same patch; the penis length of males also depended on the presence of neighbors. These phenomena suggest that an individual is sensitive to its neighbors. No individuals in the process of sex change were ever found from histological studies of the gonads. Neither the hypothesis that the sex of recruits determines their habitats, nor the hypothesis that there is strict protandric sex-change is supported. The results, however, are all clearly compatible with the hypothesis that the snail has labile sex expression. In the presence of existing females in a patch, recruits are more likely to develop into males, whereas recruits starting a new patch grow to a larger size before developing into females directly. The labile sex expression of Q. monodonta is the only such report in neogastropods.
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References
Bucklandnicks JA, Eernisse DJ (1993) Ultrastructure of mature sperm and eggs of the brooding hermaphroditic chiton, Lepidochitona fernaldi Eernisse 1986, with special reference to the mechanism of fertilization. J Exp Zool 265:567–574
Chanov EL, Bull JJ (1989) Non-Fisherian sex ratios with sex change and environmental sex determination. Nature 338:148–150
Chen MH, Yang YW, Soong K (1998) Preliminary observations on change of sex by the coral-inhabiting snail Coralliophila violacea (Lamarck) (Gastropoda: Coralliophilidae). J Exp Mar Biol Ecol 230:207–212
Coe WR (1953) Influences of association, isolation, and nutrition on the sexuality of snails of the genus Crepidula. J Exp Zool 122:5–19
Collin R (1995) Sex, size and position: a test of models predicting size at sex change in the protandrous gastropod Crepidula fornicata. Am Nat 146:815–831
Demond J (1957) Micronesian reef-associated gastropods. Pac Sci 11:275–341
Fong PP, Garthwaite RL (1994) Allozyme electrophoretic analysis of the Hediste limnicola H. diversicolor H. japonica species complex (Polychaeta, Nereididae). Mar Biol 118:463–470
Fretter V, Graham A (1962) British Prosobranch Molluscs: their functional anatomy and ecology. Ray Society, London
Fujioka Y, Yamazato K (1983) Host selection of some Okinawan coral-associated gastropods belonging to the genera Drupella, Coralliophila and Quoyula. Galaxea 2:59–73
Hadfield MG (1976) Molluscs associated with living tropical corals. Micronesica 12:133–148
Hadfield MG, Hopper CN (1980) Ecological and evolutionary significance of pelagic spermatophores of vermetid gastropods. Mar Biol 57:315–325
Hertlein LG, Allison EC (1960) Gastropods from Clipperton Island. Veliger 3:13–16
Hoagland KE (1978) Protandry and the evolution of environmentally-mediated sex change: a study of the mollusca. Malacologia 17:365–391
Hoeg JT (1984) Size and settling behaviour in male and female cypris larvae of the parasitic barnacle Sacculina carcini Thompson (Crustacea: Cirripedia: Rhizocephala). J Exp Mar Biol Ecol 76:145–156
Hoeg JT (1995) The biology and life cycle of the Rhizocephala (Cirripedia). J Mar Biol Assoc UK 75:517–550
Hsieh HL (1997) Self-fertilization—a potential fertilization mode in an estuarine sabellid polychaete. Mar Ecol Prog Ser 147:143–148
Hughes RN (1986) A functional biology of marine gastropods. John Hopkins University Press, Maryland, USA
Jaccarini V, Agius L, Schembri PJ, Rizzo M (1983) Sex determination and larval sexual interaction in Bonellia viridis Rolando (Echiura: Bonelliidae). J Exp Mar Biol Ecol 66:25–40
Levitan DR (1995) The ecology of fertilization in free-spawning invertebrates. In: McEdward L (ed) Ecology of marine invertebrate larvae. CRC, New York, pp 123–156)
McGee BL, Targett NM (1989) Larval habitat selection in Crepidula (L.) and its effect on adult distribution patterns. J Exp Mar Biol Ecol 131:195–214
Pennington JT (1985) The ecology of fertilization of echinoid eggs: the consequences of sperm dilution, adult aggregation, and synchronous spawning. Biol Bull 169:417–430
Rice SA (1980) Ultrastructure of male nephridium and its role in spermatophore formation in spionid polychaetes (Annelida). Zoomorphologie 95:181–194
Robertson R (1970) Review of the predators and parasites of stony corals, with special reference to symbiotic prosobranch gastropods. Pac Sci 24:43–54
Schuhmacher H (1992) Impact of some corallivorous snails on stony corals in the Red Sea. Proc 7th Int Coral Reef Symp 2:840–846
Soong K, Chen JL (1991) Population structure and sex-change in the coral-inhabiting snail Coralliophila violacea at Hsiao-Liuchiu, Taiwan. Mar Biol 111:81–86
Strathmann RR (1990) Why life histories evolve differently in the sea. Am Zool 30:197–207
Svane I (1986) Sex determination in Scalpellum scalpellum (Cirripedia: Thoracica: Lepadomorpha), a hermaphroditic goose barnacle with dwarf males. Mar Biol 90:249–253
Taylor JD (1971) Reef associated molluscan assemblages in the Western Indian Ocean. Symp Zool Soc Lond 28:501–534
Warner RR, Fitch DL, Standish JD (1996) Social control of sex change in the shelf limpet, Crepidula norrisiarum: size-specific responses to local group composition. J Exp Mar Biol Ecol 204:155–167
Webb M (1963) A reproductive function of the tentacle in the male of Sibloginum ekmani Jagersten (Pogonophora). Sarsia 13:45–49
Yund PO, McCartney MA (1994) Male reproductive success in sessile invertebrates—competition for fertilizations. Ecology 75:2151–2167
Acknowledgements
We would like to thank Ms. I.C. Chen for help with the histological work. Thanks are also due to Drs. C.A. Chen, C.C. Lu and Ms. Y.W. Yang for advice on an earlier version of this manuscript. This investigation was supported by a grant from the National Science Council (NSC 87-2311-B-110-001-B22), Republic of China (Taiwan).
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Communicated by T. Ikeda, Hakodate
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Soong, K., Chen, MH. Sex expression of an immobile coral-inhabiting snail, Quoyula monodonta . Marine Biology 143, 351–358 (2003). https://doi.org/10.1007/s00227-003-1098-4
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DOI: https://doi.org/10.1007/s00227-003-1098-4