Abstract
Study of the life history characteristics of the common Red Sea sponge Mycale fistulifera (Poecilosclerida: Demospongiae) reveals several traits which may categorize it as an opportunistic species: (1) at least part of the population is reproductively active throughout the year, providing a continuous supply of larvae for settlement; (2) sponges may produce and release a large number (152±39 larvae d-1) of brooded larvae; (3) released larvae are capable of fast settlement and metamorphosis (minutes to 30 hours post-release); (4) the turnover of the population is high and population size varies with time. From 48 initial sponges plus 94 recruits, only 25 remained alive after 14 months of observation; (5) most members of the population (>70%) have a small body size (<30 cm2); (6) sexual maturity may occur at an early age. These traits facilitate continuous establishment of M. fistulifera in new spaces on the reef; (7) M. fistulifera, preferred substrate is another opportunistic species, the coral Stylophora pistillata which it overgrows.
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References
Amano S (1988) Morning release of larvae controlled by the light in an intertidal sponge, Callyspongia ramosa. Biol Bull mar biol Lab, Woods Hole 175: 181–184
Bergquist PR, Sinclair ME (1973) Seasonal variation in settlement and spiculation of sponge larvae. Mar Biol 20: 35–44
Borojevic R (1966) Etude experimentale de la différenciation des cellules de, l'éponge au cours de son développement. Devl Biol 14: 130–153
Boury-Esnault N, Pansini M, Uriz MJ (1994) Spongiaires bathyaux de la mer d'Alboran et du golfe ibéro-marocain. Mém Mus natn Hist nat, Paris (Sér A). 160: 1–174
Dayton PK (1979) Observations of growth, dispersal and population dynamics of some sponges in McMurdo Sound, Antarctica. In: Levi C, Boury-Esnault N (eds) Colloques internationaux du C.N.R.S. No. 291- Biologie des spongiaires, pp 271–282
Dayton PK, Robilliard GA, Paine RT, Dayton LB (1974) Biological accommodation in the benthic community at McMurdo Sound, Antarctica Ecol Monogr 44: 105–128
Frith DW (1975) Animals associated with sponges at North Hayling, Hampshire. Zool J Linn Soc 58: 353–362
Fromont J (1988) Aspects of the reproductive biology of Xestospongia testudinaria (Great Barrier Reef). Proc 6th int coral Reef Symp 2: 685–691 [Choat JH et al. (eds) Sixth International Coral Reef Symposium Executive Committee Townsville]
Fromont J (1994) Reproductive development and timing of tropical sponges (Order Haplosclerida) from the Great Barrier Reef Australia. Coral Reefs 13: 127–133
Fromont J, Bergquist PR (1994) Reproductive biology of three sponge species of the genus Xestospongia (Porifera: Demospongiae: Petrosida) from the Great Barrier Reef. Coral Reefs 13: 119–126
Hajdu E, Desquyroux-Faúndez R (1994) A synopsis of South American Mycale (Mycale) (Poecilosclerida, Demospongiae), with description of three new species and a cladistic analysis of Mycalidae. Revue suisse. Zool 101: 563–600
Hoppe WF (1988) Reproductive patterns in three species of large coral reef sponges Coral Reefs 7: 45–50
Hoppe WF, Reichert MJM (1987) Predictable annual mass release of gametes by the coral reef sponge Neofibularia nolitangere (Porifera: Demospongiae). Mar Biol 94: 277–285
Ilan M (1995) Reproductive biology, taxonomy, and aspects of chemical ecology of Latrunculiidae (Porifera). Biol Bull mar biol Lab, Woods Hole 188: 306–312
Ilan M, Loya Y (1988) Reproduction and settlement of the coral reef sponge Niphates sp. (Red Sea). Proc 6th int coral Reefs Symp 2: 745–749 [Choat JH et al. (eds) Sixth International Coral Reef Symposium Executive Committee, Townsville]
Ilan M, Loya Y (1990) Sexual reproduction and settlement of the coral reef sponge Chalinula sp. from the Red Sea. Mar Biol 105: 25–31
Ilan M, Vacelet J (1993) Kebira uteoides (Porifera, Calcarea) a recent “pharetronid” sponge from coral reefs. Ophelia 38: 107–116
Krebs CJ (1989) Ecological methodology. Harper Collins Publishers, New York
Levi C (1964) Ultrastructure de la larve parenchymella de demo-sponge. I. Mycale contarenii (Martens). Cah Biol mar 5: 97–104
Loya Y (1976a) Settlement, mortality and recruitment of a Red Sea scleractinian coral population. In: Mackie GO (ed) Coelenterate ecology and behavior. Plenum Press, New York, pp 89–100
Loya Y (1976b) The Red Sea coral Stylophora pistillata is an r strategist. Nature, Lond 259: 478–480
Loya Y, Slobodkin LB (1971) The coral reefs of Eilat (Gulf of Eilat, Red Sea) Symp zool Soc Lond 28: 117–139
Meroz E, Ilan M (1995) Cohabitation of a coral reef sponge and a colonial scyphozoan. Mar Biol 124: 453–459
Reiswig HM (1973) Population dynamics of three Jamaican Demospongiae. Bull mar Sci 23: 191–226
Reiswig HM (1974) Water transport respiration and energetics of three tropical marine sponges. J exp mar Biol Ecol 14: 231–249
Reiswig HM (1983) Porifera. In: Adiyodi KG, Adiyodi RG (eds) Reproductive biology of invertebrates. Vol. II. Spermatogenesis. Wiley, Chichester, pp 1–21
Rinkevich B, Shashar N, Liberman T (1993) Nontransitive xenogeneic interactions between four common Red Sea sessile invertebrates. In: Richmond R (ed) Proc 7th int coral Reef, Symp 2: 833–839 [Richmond RH (ed) University of Guam, Mangilao, Guam]
Row RWH (1911) Report on the sponges collected by Mr. Cyril Crossland in 1904–05. Part II. Non-calcarea. J Linn Soc Lond Zool 31: 287–400
Schubauer JP, Burns TP, Richardson TH (1990) Population dynamics of five Demospongiae in Jamaica: variation in time and space. In: Rützler K (ed) New perspectives in sponge biology. Smithsonian Institution Press, Washington, DC, pp 443–451
Soest RWM van (1984) Marine sponges from Curacao and other Caribbean localities. Part III. Poecilosclerida. Stud Fauna Curaçao 199: 1–187
Sokal RR, Rohlf FJ (1994) Biometry. W. H. Freeman & Co., New York
Topsent ME (1928) Spongiaires de l'Atlantique et de la Méditerranée provenant des croisieres du Prince Albert Ier de Monaco. Result Camp scient Prince Albert J 74: 1–376
Vine P (1986) Red Sea invertebrates. Immel Publishing, London
Wapstra M, Soest RWM (1987) Sexual reproduction, larval morphology and behaviour in demosponges from the southwest of the Netherlands In: Vacelet J, Boury-Esnault N (eds) Taxonomy of Porifera. Springer-Verlag, Berlin, pp 281–307
Wells HW, Wells MJ, Gray IE (1964) Ecology of sponges in Hatteras Harbor, North Carolina. Ecology 45: 752–767
Wilkinson CR, Evans E (1989) Sponge distribution across Davis Reef, Great Barrier Reef, relative to location, depth, and water movement. Coral Reefs 8: 1–7
Wilson HV (1935) Some critical points in the metamorphosis of the Halichondrine sponge larva. J Morph 58: 285–345
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Communicated by O. Kinne, Oldendorf/Luhe
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Meroz, E., Ilan, M. Life history characteristics of a coral reef sponge. Marine Biology 124, 443–451 (1995). https://doi.org/10.1007/BF00363918
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DOI: https://doi.org/10.1007/BF00363918