Oocyte development in four species of scyphomedusa in the northern Adriatic Sea

Avian, M.; Sandrini, L. Rottini

doi:10.1007/978-94-011-3240-4_26

Oocyte development in four species of scyphomedusa in the northern Adriatic Sea

M. Avian¹ &
L. Rottini Sandrini¹

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Part of the book series: Developments in Hydrobiology ((DIHY,volume 66))

Abstract

Oocyte development was followed in 4 species of Scyphomedusae. In Pelagia noctiluca a centrifugal maturity gradient is present. Vitellogenesis may be related first to exogenous endodermal production and later to oocyte endogenous activity. Simultaneously, the paraovular body (POB) develops from the secondary endoderm; it is connected to the oocyte and controls secretion of mucus, which envelops the oocyte during spawning. In Aurelia aurita, there is no maturity gradient, nor any differentiated structures of endodermal origin, associated with oocytes. In Discomedusa lobata a maturity gradient is absent. Its vitellogenesis is similar to that in P. noctiluca, and is associated with structural modification of the secondary endoderm in the area contacting the oocyte. This structure is cytologically similar to the POB of P. noctiluca, though less differentiated. Spawning is similar to that of P. noctiluca, with fenestration of the surrounding endodermal cells as the oocyte passes from the ovary to the genital sinus. In Rhizostoma pulmo a maturity gradient is absent. An early and fairly evident development of the vitelline membrane was observed.

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References

Avian, M., F. Micali, M. Sciancalepore & L. Rottini Sandrini, 1987. Vitellogenesi in Pelagia noctiluca: primi risultati di tecniche autoradiografiche. Atti Accad. Sci. 1st. Bologna (Ser. 14) 3: 139–146.
Google Scholar
Campbell, R. D., 1974. Cnidaria. In A. C. Giese & S. Pearse (eds), Reproduction of Marine Invertebrates, I: Acoelo- mate and Pseudocoelomate Metazoans. Academic Press, N. Y.: 133–199.
Google Scholar
Chapman, D. M., 1974. Cnidarian Histology. In L. Muscatine & H. M. Lenhoff(eds), Coelenterate biology, reviews and new perspectives. Academic Press, N. Y.: 1–92.
Google Scholar
Claus, C., 1883. Untersuchungen über die Organisation und Entwicklung der Medusen. F. Temps Ry & G. Freitag, Prague; Leipzig, 96 pp.
Chapter Google Scholar
Hertwig, O. & R. Hertwig, 1879. Die Actinien, Anatomisch und Histologisch mit besonderer berücksichtigung des Nervenmuskelsysterns. Gustav Fischer, Jena, 224 pp.
Chapter Google Scholar
Kessel, R. G., 1968. Electron microscope studies on developing oocytes of a coelenterate medusa with special reference to vitellogenesis. J. Morph. 126: 211–221.
Article Google Scholar
Kikinger, R., 1983. Biologie der Mediterranean Scyphomeduse Cotylorhiza tubercolata (Macri 1778) (Scyphozoa: Rhizostomae). Ph.D. thesis, Universität Wien.
Google Scholar
Kikinger, R., 1986. Development cycle of Cotylorhiza tubercolata (Scyphozoa: Rhizostomae). Nova Thalassia 8 (2): 73–82.
Google Scholar
Kramp, P. L., 1961. Synopsis of the medusae of the world. J. mar. biol. Ass. U.K. 40: 1–469.
Google Scholar
Larkman, A. U., 1983. An ultrastructural study of oocyte growth within the endoderm and entry into the mesoglea in Actinia fragacea (Cnidaria, Anthozoa). J. Morph. 178: 155–177.
Article PubMed CAS Google Scholar
Larkman, A. U. & M. A. Carter, 1982. Preliminary ultrastructural and autoradiographic evidence that the trophonema of the sea anemone Actinia fragacea has a nutritive function. Int. J. Invertebr. Reprod. 4: 375–379.
Article Google Scholar
Mayer, A. G., 1910. Medusae of the world. III, The Scyphomedusae. Carnegie Institute, Washington: 499–735.
Google Scholar
Russell, F. S., 1970. The Medusae of the British Isles. II, Pelagic Scyphozoa with a supplement to the first volume on Hydromedusae. Cambridge Univ. Press, Cambridge, 284 pp.
Google Scholar
Tardent, P., 1978. Coelenterata, Cnidaria. In Morphogenese der Tiere, 1: A-I, Gustav Fischer, Jena: 71–415.
Google Scholar
Tardent, P., 1985. The differentiation of germ cells in Cnidaria. In H. P. Halvorson & A. Monroy (eds), The Origin and evolution of sex. Alan R. Liss Inc., N. Y.: 163–197.
Google Scholar
Widersten, B., 1965. Genital organs and fertilization in some Scyphozoa. Zool. Bidr. Upps. 37: 45–58.
Google Scholar

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Authors and Affiliations

Department of Biology and Centro Internazionale Mediterraneo Ambiente Meduse, University of Trieste, Via Valerio 32, 34127, Trieste, Italy
M. Avian & L. Rottini Sandrini

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M. Avian
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L. Rottini Sandrini
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R. B. Williams P. F. S. Cornelius R. G. Hughes E. A. Robson

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Avian, M., Sandrini, L.R. (1991). Oocyte development in four species of scyphomedusa in the northern Adriatic Sea. In: Williams, R.B., Cornelius, P.F.S., Hughes, R.G., Robson, E.A. (eds) Coelenterate Biology: Recent Research on Cnidaria and Ctenophora. Developments in Hydrobiology, vol 66. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-3240-4_26

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DOI: https://doi.org/10.1007/978-94-011-3240-4_26
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-5428-7
Online ISBN: 978-94-011-3240-4
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