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Ecology of the Oceanic Squid Onychoteuthis Banksi and The Relationship Between the Genera Onychoteuthis and Chaunoteuthis (Cephalopoda: Onychoteuthidae)

Published online by Cambridge University Press:  11 May 2009

Alexander I. Arkhipkin  and
Chingiz M. Nigmatullin
Alexander I. Arkhipkin
Affiliation:
Atlantic Research Institute of Marine Fisheries and Oceanography (AtlantNIRO), 5 Dm. Donskoy Street, 236000, Kaliningrad, Russia
Chingiz M. Nigmatullin
Affiliation:
Atlantic Research Institute of Marine Fisheries and Oceanography (AtlantNIRO), 5 Dm. Donskoy Street, 236000, Kaliningrad, Russia
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Ontogenetic changes in the body morphology, morphometrics, age, growth, maturation, fecundity, feeding spectrum and parasites were studied in 218 specimens of the oceanic nektonic squid Onychoteuthis banksi and in two specimens of the rare planktonic squid Chaunoteuthis mollis (Onychoteuthidae) caught in the tropical waters between 1977 and 1990. Similarities between the two species in major taxonomic features and in several morphometrical indices suggest that C. mollis is in fact a mature female of O. banksi with degenerated mantle and fin muscles and lost tentacles. Thus, C. mollis will be considered as a lesser synonym of O. banksi. Statolith microstructure analysis reveals that O. banksi is a slow-growing squid with low maturation rates, spending the first 240–260 d of life in the epipelagic zone. The main features of the reproductive strategy include earlier maturation of the males, small eggs (0.2–0.5 mm in diameter by the end of protoplasmic growth), synchronous development of oocytes and high potential fecundity (51,000–205,000 eggs). Onychoteuthis banksi is an opportunistic predator, shifting to a fish and squid diet much earlier and at smaller sizes (20–40 mm ML) than ommastrephid squid. The feeding activity of small and medium O. banksi (20–80 mm ML) is a little higher and that of large O. banksi (80–148 mm ML) is lower than in ommastrephids of the same size. The helminth fauna of O. banksi is impoverished and consists of ‘food parasites’: larval Didymozoidea and Scolex spp. The level of infection is low, only reaching -52 specimens per host in large squid. The nature of the life cycle of O. banksi and possible evolutionary trends in the development of the ‘Chaunoteuthis’ stage for maturation and spawning of females in the deep water are discussed.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 77 , Issue 3 , August 1997 , pp. 839 - 869
Copyright
Copyright © Marine Biological Association of the United Kingdom 1997

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References

Adam, W., 1972. Notes sur les cephalopodes. XXV. Contribution à la connaissance de Chaunoteuthis mollis Appellof, 1891. Bulletin de l'Institut R. des Sciences Naturelles de Belgique, 48, 17.Google Scholar
Appellof, A., 1891. Teuthologische Beitrage. II. Chaunoteuthis n.g. Oegopsidarum. Bergens Museums Arsbereting, N 1, 129.Google Scholar
Arkhipkin, A.I., 1991. Methods for cephalopod age and growth studies with emphasis on statolith ageing techniques. In Squid age determination using statoliths. Proceedings of the International Workshop, Istituto di tecnologia della Pesca e del Pescato (ITPP-CNR), Mazara del Vallo, Italy, 9–14 October 1989 (ed. P., Jereb et al.), pp. 1117. Mazara del Vallo: NTR-ITPP. [Special Publications no. 1.]Google Scholar
Arkhipkin, A.I., 1994. Age, growth and maturation of the squid Enoploteuthis leptura (Oegopsida: Enoploteuthidae) from the central-east Atlantic. Journal of Molluscan Studies, 60, 18.CrossRefGoogle Scholar
Arkhipkin, A.I. & Bizikov, V.A., 1991. Comparative analysis of age and growth rates estimation using statoliths and gladius in squid. In Squid age determination using statoliths. Proceedings of the International Workshop, Istituto di tecnologia della Pesca e del Pescato (ITPP-CNR), Mazara del Vallo, Italy, 9–14 October 1989 (ed. P., Jereb et al.), pp. 1933. Mazara del Vallo: NTR-ITPP. [Special Publications no. 1.]Google Scholar
Arkhipkin, A.I. & Mikheev, A., 1992. Age and growth of the squid Sthenoteuthis pteropus (Oegopsida: Ommastrephidae) from the central-east Atlantic. Journal of Experimental Marine Biology and Ecology, 163, 261276.CrossRefGoogle Scholar
Arkhipkin, A.I. & Murzov, S.A., 1990. Age and growth pattern of the micronektonic squid, Abraliopsis atlantica (Enoploteuthidae). Biologiya Morya, 1990, 1925. [In Russian with English summary.]Google Scholar
Arkhipkin, A.I. & Parfeniuk, A.V., 1987. Fauna and spatial distribution of micronektonic and planktonic cephalopods in epipelagic waters of the Naska Underwater Ridge. In Molluscs. Results and perspectives of their studies. Proceedings of the All-Union Congress of Molluscan Studies, Leningrad, 6–13 April 1986 (ed. tazobogatov, Ya. IS. et al.), pp. 138140. Leningrad: Nauka. [In Russian.]Google Scholar
Arkhipkin, A.I. & Schetinnikov, A.S., 1989. Fauna and distribution of young and adult pelagic cephalopods in the Gulf of Guinea. Zoologicheskii Zhurnal, 68, 2632. [In Russian with English summary.]Google Scholar
Arkhipkin, A.I., Zheronkin, Y.N., Loktionov, Y.A. & Schetinnikov, A.S., 1988. Fauna and distribution of pelagic larvae of cephalopods in the Guinea Gulf. Zoologicheskii Zhurnal, 67, 14591468. [In Russian with English summary.]Google Scholar
Beklemishev, K.V., 1969. Ecology and biogeography of pelagic realm. Moscow: Nauka. [In Russian with English summary.]Google Scholar
Bigelow, K., 1992. Age and growth in paralarvae of the mesopelagic squid Abralia trigonura based on daily growth increments in statoliths. Marine Ecology Progress Series, 82, 3140.CrossRefGoogle Scholar
Bigelow, K., 1994. Age and growth of the oceanic squid Onychoteuthis borealijaponica in the North Pacific. Fishery Bulletin. National Oceanic and Atmospheric Administration, Washington, DC, 92, 1325.Google Scholar
Burukovskii, R.N., Zuev, G.V., Nigmatullin, Ch.M. & Tsymbal, M.A., 1977. Methodical bases for working out the scales of reproductive system maturity in the squid females, Stenoteuthis pteropus (Cephalopoda, Ommastrephidae) taken as an example. Zoologicheskii Zhurnal, 56, 17811791. [In Russian with English summary.]Google Scholar
Clarck, F.N., 1934. Maturity of the California sardine (Sardina caerulea), determined by ova diameter measurements. Fishery Bulletin. National Oceanic and Atmospheric Administration, Washington DC, 42, 149.Google Scholar
Clarke, M.R., 1966. A review of the systematics and ecology of oceanic squid. Advances in Marine Biology, 4, 91300.CrossRefGoogle Scholar
Clarke, M.R., 1978. The cephalopod statolith - an introduction to its form. Journal of the Marine Biological Association of the United Kingdom, 58, 701712.CrossRefGoogle Scholar
Clarke, M.R., 1980. Cephalopoda in the diet of sperm whales of the southern hemisphere and their bearing on sperm whale biology. Discovery Reports, 37, 1324.Google Scholar
Clarke, M.R., 1992. Family Onychoteuthidae Gray, 1849. In ‘Larval’ and juvenile cephalopods. A manual for their identification (ed. M.J., Sweeney et al.), pp. 127137. Washington, DC: Smithsonian Institution Press. [Smithsonian Contributions to Zoology, no. 513.]Google Scholar
Dawe, E.G. & Natsukari, Y., 1991. Light microscopy. In Squid age determination using statoliths. Proceedings of the International Workshop, Istituto di tecnologia della Pesca e del Pescato (ITPPCNR), Mazara del Vallo, Italy, 9–14 October 1989 (ed. P., Jereb et al.), pp. 8396. Mazara del Vallo: NTR-ITPP. [Special Publications no. 1.]Google Scholar
Degner, E., 1925. Cephalopoda. Report on the Danish Oceanographic Expeditions 1908–10 to the Mediterranean and adjacent seas, 2, 194.Google Scholar
Gaevskaya, A.V. & Nigmatullin, C.M., 1977. Biotic relations of Ommastrephes bartrami (Cephalopoda, Ommastrephidae) in the North and South Atlantic. Zoologicheskii Zhurnal, 55, 18001810. [In Russian with English summary.]Google Scholar
Grimpe, G., 1921. Teuthologische Mitteilungen. VI. Das Leipziger Stuck von Chaunoteuthis mollis Appellof. Zoologische Anzeiger, 52, 289296.Google Scholar
Guerra, A., 1992. Mollusca, Cephalopoda. In Fauna Iberica, vol 1 (ed. Ramos, M. A. et al.). Madrid: Museo Nacionale de Ciencias Naturales, CSIC.Google Scholar
Hamabe, M., 1962. Embryological studies on the common squid, Ommastrephes sloani pacificus Steenstrup, in the southeastern waters of the Sea of Japan. Bulletin of the Japan Sea Regional Fisheries Research Laboratory, 10, 145.Google Scholar
Jackson, G.D. & Mladenov, P.V., 1994. Terminal spawning in the deepwater squid Moroteuthis ingens (Cephalopoda: Onychoteuthidae). Journal of Zoology, 234, 189201.CrossRefGoogle Scholar
Joubin, L., 1920. Cephalopodes provennant des campagnes de la ‘Princesse Alice’ (1893–1910) (3 Serie). Resultats des Campagnes Scientifiques accomplies sur son Yacht par Albert I Monaco, 54, 1133.Google Scholar
Lipinski, M.R., Dawe, E. & Natsukari, Y., 1991. Introduction. In Squid age determination using statoliths. Proceedings of the International Workshop, Istituto di tecnologia della Pesca e del Pescato (ITPP-CNR), Mazara del Vallo, Italy, 9–14 October 1989 (ed. P., Jereb et al.), pp. 7781. Mazara del Vallo: NTR-ITPP. [Special Publications no. 1.]Google Scholar
Lönnberg, E., 1896. Notes on some rare cephalopods. Ofversigt af K Vetenskapsakademiens Forhandlingar, 8, 603612.Google Scholar
Murakami, K., Watanabe, Y. & Nakata, J., 1981. Growth, distribution and migrations of the flying squid (Ommastrephes bartrami) in the North Pacific. Bulletin of Hokkaido National Fisheries Research Institute, 1981, 161179. [Special Edition.]Google Scholar
Murata, M., Ishii, M. & Osako, M., 1982. Some information on copulation of the oceanic squid Onychoteuthis borealijaponica Okada. Bulletin of Japanese Society of Science and Fisheries, 48, 351354.CrossRefGoogle Scholar
Naef, A., 1923. Die Cephalopoden. Fauna und Flora des Golfes von Neapel und der Angrenzenden Meeresabschnitte. Berlin, 35, 1863.Google Scholar
Naidenova, N.N., Nigmatullin, C.M. & Gaevskaya, A.V., 1985. The helminth fauna and host-parasite relations of squid Sthenoteuthis oualaniensis (Lesson) (Cephalopoda, Ommastrephidae) in the Indian Ocean and the Red Sea. In Parasitology and pathology of marine organisms of the world ocean (ed. W.J., Hargris, Jr). NOAA Technical Report NMFS, 25, 113116.Google Scholar
Nesis, K.N., 1970. Occurrence of a rare squid, Chaunoteuthis mollis Appellof (family Onychoteuthidae) in the Indian Ocean. Veliger, 12, 290292.Google Scholar
Nesis, K.N., 1985. Oceanic cephalopods. Their distribution, life forms and evolution. Moscow: Nauka. [In Russian with English summary.]Google Scholar
Nesis, K.N., 1987. Cephalopods of the world. Neptune city: T.H.F. Publications.Google Scholar
Nesis, K.N., 1993. Spent females of deep-water squid Gonatopsis octopediatus Sasaki, 1920 (Gonatidae) in the epipelagic layer of the Okhotsk and Japan Seas. Ruthenica, 3, 153158.Google Scholar
Nigmatullin, C.M., 1987. The rules in ecological parasitology in application to nektonic squid. In Parasitology and pathology of marine organisms. IV All-Union Symposium. Abstracts of communications (ed. A.V., Gaer-Skaya), pp. 1718. Kaliningrad: AtlantNIRO Press. [In Russian.]Google Scholar
Nigmatullin, C.M., 1989. Las especies del calamar mas abundantes del Atlantico sudoeste y synopsis sobre ecologia del Illex argentinus. Frente Maritimo, 5, 7181.Google Scholar
Nigmatullin, C.M., Arkhipkin, A.I. & Sabirov, R.M., 1995. Age, growth and reproductive biology of diamond-shaped squid Thysanoteuthis rhombus (Oegopsida: Thysanoteuthidae). Marine Ecology Progress Series, 124, 7387.CrossRefGoogle Scholar
Nigmatullin, C.M. & Laptikhovskij, V.V., 1994. Reproductive strategies of the family Ommastrephidae squids (preliminary report). Ruthenica, 4, 7982.Google Scholar
Nigmatullin, C.M. & Toporova, N.M., 1982. Feeding spectrum of squid Sthenoteuthis pteropus (Steenstrup, 1855) in the epipelagial of the tropical Atlantic. In Feeding and food relationship of fishes and invertebrates in the Atlantic (ed. V.I., Malyshev), pp. 38. Kaliningrad: Trudy AtlantNIRO. [In Russian.]Google Scholar
Okiyama, M., 1993. Why do gonatid squid Berryteuthis magister lose tentacles on maturation? Nippon Suisan Gakkaishi, 59, 61—65.CrossRefGoogle Scholar
Okutani, T. & Ida, H., 1986. Rare and interesting squid in Japan. 9. A mass occurrence of Chaunoteuthis mollis Appellof, 1891 (Oegopsida, Onychoteuthidae) from off Japan. Venus, 45, 5360.Google Scholar
Pfeffer, G., 1912. Die Cephalopoden der Plankton-Expedition. Zugleich eine monographische Ubersicht der oegopsiden Cephalopoden. Ergebn Plankton-Expedition Humboldt-Stiftung, 2, 1815.Google Scholar
Piatkowski, U., Nigmatullin, C.M., Laptikhovskij, V.V. & Filippova, Y.A., 1993. First data on female fecundity in subantarctic and Antarctic squid. In Southern Ocean Symposium, Cambridge, 5–9 July 1993. Abstracts, p. 28. Cambridge: British Antarctic Survey.Google Scholar
Rancurel, P., 1970. Les contenus stomachaux d'Alepisaurus ferox dans le Sud-ouest Pacifique (Cephalopodes). Cahier ORSTOM. Serie Oceanographie, 8, 387.Google Scholar
Rancurel, P. & Okutani, T., 1990. A new spedes of squid genus Onychoteuthis from the Southwest Pacific. Venus, 49, 2530.Google Scholar
Ricker, W.E., 1958. Handbook of computation for biological statistics of fish populations. Bulletin. Fisheries Research Board of Canada, 119, 1300.Google Scholar
Roper, C.F.E., Sweeney, M.J. & Nauen, C.E., 1984. FAO species catalogue. Vol. 3. Cephalopods of the world. An annotated and illustrated catalogue of species of interest to fisheries. FAO Fisheries Synopsis, 125, 1277.Google Scholar
Roper, C.F.E. & Voss, G.L., 1983. Guidelines for taxonomic descriptions of cephalopod species. Memoirs of the National Museum Victoria, 64, 48—63.CrossRefGoogle Scholar
Schetinnikov, A.S., 1992. Feeding spectrum of squid Sthenoteuthis oualaniensis (Oegopsida) in the eastern Pacific. Journal of the Marine Biological Association of the United Kingdom, 72, 849860.CrossRefGoogle Scholar
Torchio, M., 1967. Eccezionale reperto di Chaunoteuthis mollis (Appelloff) nello Stretto di Messina. Natura. Milano, 58, 193207.Google Scholar
Voss, G.L., 1983. A review of cephalopods fisheries biology. Memoirs of the National Museum Victoria, 64, 229241.CrossRefGoogle Scholar
Young, R.E., 1972. The systematics and areal distribution of pelagic cephalopods from the seas off southern California. Smithsonian Contributions to Zoology, 97, 1159.CrossRefGoogle Scholar
Young, R.E., 1973. Evidence for spawning by Gonatus sp. (Cephalopoda, Teuthoidea) in the High Arctic Ocean. Nautilus, 87, 5358.Google Scholar
Young, R.E. & Harman, R.F., 1987. Descriptions of the larvae of three species of the Onychoteuthis banksi complex from Hawaiian waters. Veliger, 29, 313321.Google Scholar
Zuev, G.V., Nigmatullin, C.M. & Nikolsky, V.N., 1985. Nektonic oceanic squid. Moscow: Agropromizdat. [In Russian with English summary.]Google Scholar