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Female description of the hydrothermal vent cephalopod Vulcanoctopus hydrothermalis

Published online by Cambridge University Press:  25 March 2008

A.F. González*
Affiliation:
ECOBIOMAR, Instituto de Investigaciones Marinas (CSIC), Eduardo Cabello 6, 36208 Vigo, Spain
A. Guerra
Affiliation:
ECOBIOMAR, Instituto de Investigaciones Marinas (CSIC), Eduardo Cabello 6, 36208 Vigo, Spain
S. Pascual
Affiliation:
ECOBIOMAR, Instituto de Investigaciones Marinas (CSIC), Eduardo Cabello 6, 36208 Vigo, Spain
M. Segonzac
Affiliation:
IFREMER, Centre de Brest, Laboratoire Environnement Profond, BP 70, 29280-Plouzané, France
*
Correspondence should be addressed to: A.F. González ECOBIOMARInstituto de Investigaciones Marinas (CSIC)Eduardo Cabello 6, 36208 VigoSpain email: [email protected]

Abstract

During biological sampling of hydrothermal vents on the East Pacific Rise, the manned submersible ‘Nautile’ caught the first female of the endemic cephalopod Vulcanoctopus hydrothermalis. The specimen caught at the vent site Gromit (21°33 66′S, 114°17 98′W at 2832 m depth) is described here in detail and an amended diagnosis of the species proposed. The external morphology, measurements and internal structure resemble that of males of this species. One of the most remarkable characters is the lack of spermathecae and the absence of apical filaments in the oocytes to provide a site for sperm storage. It is suggested that some species of the genera Benthoctopus and Bathypolypus would be the most suitable octopod ancestor of V. hydrothermalis.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2008

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References

REFERENCES

Boyle, P.R. (1983) Eledone cirrhosa. In Boyle, P.R. (ed.) Cephalopod life cycles. Vol I. Species account. London: Academic Press, pp. 365386.Google Scholar
Causse, R., Biscoito, M. and Briand, P. (2005) First record of the deep-sea eel Ilyophis saldanhai (Synaphobranchidae, Anguilliformes) from the Pacific Ocean. Cybium 29, 413416.Google Scholar
Clarke, M.R. (1986) A handbook for the identification of cephalopod beaks. Oxford: Clarendon Press, 273 pp.Google Scholar
Desbruyères, D., Segonzac, M. and Bright, M. (eds). (2006) Handbook of deep-sea hydrothermal vent fauna. Denisia 18, 544 pp.Google Scholar
Froesch, D. and Marthy, H.J. (1975) The structure and function of the oviducal gland in octopods (Cephalopoda). Proceedings of the Royal Society Series B 188, 95101.Google Scholar
González, A.F., Guerra, A., Pascual, S. and Briand, P. (1998) Vulcanoctopus hydrothermalis gen. et sp. nov. (Mollusca, Cephalopoda): an octopod from a deep-sea hydrothermal vent site. Cahiers de Biologie Marine 39, 169184.Google Scholar
González, A.F., Guerra, A., Rocha, F. and Briand, P. (2002) Morphological variation in males of Vulcanoctopus hydrothermalis (Cephalopoda). Bulletin of Marine Science 71, 289298.Google Scholar
Guerra, A. (1975) Determinación de las diferentes fases del desarrollo sexual de Octopus vulgaris mediante un índice de madurez. Investigación Pesquera 39, 397416.Google Scholar
Jollivet, D., Lallier, F.H., Barnay, A.-S. et al. (2004) A new survey of hydrothermal vents along the South East Pacific Rise from 7°24′S to 21°33′S. InterRidge News 13, 2026.Google Scholar
López-González, P.J., Bresciani, J., Huys, R., González, A.F., Guerra, A. and Pascual, S. (2000) Description of Genesis vulcanoctopusi gen. et sp. nov. (Copepoda: Tisbidae) parasitic on a hydrothermal vent octopod and a reinterpretation of the life cycle of cholidynid harpacticoids. Cahiers de Biologie Marine 41, 241253.Google Scholar
Mangold, K. (1983) Eledone moschata. In Boyle, P.R. (ed.) Cephalopod Life Cycles. Vol I. Species account. London. Academic Press, pp. 387400.Google Scholar
Mann, T., Martin, A.W. and Thiersch, J.B. (1970) Male reproductive tract, spermatophores and spermatophoric reaction in the giant octopus of the North Pacific, Octopus dofleini martini. Proceedings of the Royal Society, Series B 175, 3161.Google ScholarPubMed
Morales, E. (1973) Contribución al estudio de la morfología, estructura y anatomía microscópica de la región visceral de Pteroctopus tetracirrhus D. Ch. (Octopoda, Incirrata). Investigación Pesquera 37, 353518.Google Scholar
Pérez, J.A.A., Haimovici, M. and Cousin, J.C.B. (1990) Sperm storage mechanisms and fertilization in females of two South American eledonids (Cephalopoda: Octopoda). Malacologia 2, 147154.Google Scholar
Rocha, F., González, A.F., Segonzac, M. and Guerra, A. (2002). Behavioural observations of the cephalopod Vulcanoctopus hydrothermalis. Cahiers de Biologie Marine 43, 299302.Google Scholar
Roper, C.F.E. and Voss, G.L. (1983) Guidelines for taxonomic descriptions of cephalopod species. Memoirs of the National Museum of Victoria 44, 4963.CrossRefGoogle Scholar
Voight, J.R. (2005) Hydrothermal vent octopuses of Vulcanoctopus hydrothermalis feed on bathypelagic amphipods of Halice hesmonectes. Journal of the Marine Biological Association of the UK 85, 985988.CrossRefGoogle Scholar