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Epidermal structure of the scleractinian coral Mycetophyllia ferox: light-induced vesicles, copious mucocytes, and sporadic tentacles

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Abstract

Three colony fragments of the scleractinian coral Mycetophyllia ferox Wells from Florida were observed in flow-through seawater aquaria under light and dark conditions. The colonies were then anesthetized and fixed for microscopic examination. Small vesicles formed across the epidermis in response to light as gastrodermis containing approximately 1.9 × 106 zooxanthellae cm−2 migrated into them. The vesicles flattened in the dark and the gastrodermis retreated to a clumped position. The epidermis is dominated by mucus cells with more than 6300 per mm2. In contrast, there are very few epidermal cnidae. The polyps lack tentacles entirely, though small tentacles do occur, albeit sporadically, along the colline walls. Colline tentacles are expanded both day and night, and there is considerable intracolonial variability in the number of cnidae within them, ranging from as few as 316 to more than 3200 per mm2 tentacle. There may be several small cnidocyst batteries containing both spirocysts and nematocysts (all microbasic p-mastigophores), but the principal battery is at the tentacle tip where cnidae are much more densely packed. There is considerable variation in the ratio of the two cnidae among tentacles in the same colony. Since the tentacles occur inconsistently and do not appear to expand, their functional role is unclear. Comparisons of epidermal characters are made with other members of the genus Mycetophyllia.

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References

  • N. Abe (1939) ArticleTitleFeeding behaviour and the nematocysts of Fungia and 15 other species of corals Palau Tropical Biology Station Studies 1 469–521

    Google Scholar 

  • M. Chiappone K. M. Sullivan C. Lott (1996) ArticleTitleHermatypic corals of the southeast Bahamas: a comparison to western Atlantic systems Caribbean Journal of Science 32 1–13

    Google Scholar 

  • J. C. den Hartog (1977) The marginal tentacles of Rhodactis sanctithomae (Corallimorpharia) and the sweeper tentacles of Montastraea cavernosa (Scleractinia), their cnidom and possible function In Proceedings of the Third International Coral Reef Symposium Miami: 463–469

    Google Scholar 

  • E. A. Drew (1972) ArticleTitleThe biology and physiology of alga-invertebrate symbiosis II. The density of symbiotic algal cells in a number of hermatypic hard corals and alcyonarians from various depths. Journal of Experimental Marine Biology and Ecology 9 71–75

    Google Scholar 

  • D. Fenner (1999) ArticleTitleNew observations on the stony coral (Scleractinia, Milleporidae, and Stylasteridae) species of Belize (Central America and Cozumel [Mexico]) Bulletin of Marine Science 64 143–154

    Google Scholar 

  • H. Fricke E. Vareschi (1982) ArticleTitleA scleractinian coral (Plerogyra sinusosa) with ‘photosynthetic organs’ Marine Ecology Progress Series 7 273–278

    Google Scholar 

  • W. B. Gladfelter (1975) ArticleTitleSea anemone with zooxanthellae: simultaneous contraction and expansion in response to changing light intensity Science 189 570–571 Occurrence Handle17798305

    PubMed  Google Scholar 

  • W. M. Goldberg (2002a) ArticleTitleFeeding behavior, epidermal structure and mucus cytochemistry of the scleractinian Mycetophyllia reesi, a coral without tentacles Tissue & Cell 34 232–245

    Google Scholar 

  • W. M. Goldberg (2002b) ArticleTitleGastrodermal structure and feeding responses in the scleractinian Mycetophyllia reesi, a coral with novel digestive filaments Tissue & Cell 34 246–261

    Google Scholar 

  • W. M. Goldberg K. R. Grange G. T. Taylor A. Zuniga (1990) ArticleTitleThe structure of sweeper tentacles in the black coral Antipathes fiordensis Biological Bulletin 179 96–104

    Google Scholar 

  • Harris, V. A., 1990. Sessile Animals of the Sea Shore, Chapman & Hall, London: 190–198.

  • M. Hidaka K. Yamazato (1984) ArticleTitleIntraspecific interactions in a scleractinian coral, Galaxea fascicularis: induced formation of sweeper tentacles Coral Reefs 3 77–86 Occurrence Handle10.1007/BF00263757

    Article  Google Scholar 

  • M. Hidaka M. Miyazaki K. Yamamoto (1987) ArticleTitleNematocysts characteristic of the sweeper tentacles of the coral Galaxea fascicularis (Linnaeus) Galaxea 6 195–207

    Google Scholar 

  • J. C. Lang (1973) ArticleTitleInterspecific aggression by scleractinian corals 2. Why the race is not only to the swift. Bulletin of Marine Science 23 260–279

    Google Scholar 

  • H. R. Lasker (1979) ArticleTitleLight dependent activity patterns among reef corals: Montastraea cavernosa Biological Bulletin 156 196–211

    Google Scholar 

  • J. B. Lewis (1984) ArticleTitlePhotosynthetic production by the reef coral anemone, Lebrunia coralligens Wilson, and behavioral correlates of two nutritional strategies Biological Bulletin 167 601–612 Occurrence Handle1:CAS:528:DyaL2MXns1Wltw%3D%3D

    CAS  Google Scholar 

  • J. B. Lewis W. S. Price (1975) ArticleTitleFeeding mechanisms and feeding strategies of Atlantic reef corals Journal of the Zoological Society London 176 527–544

    Google Scholar 

  • O. Levy L. Mizrahi N. E. Chadwick-Furman Y. Achituv (2001) ArticleTitleFactors controlling the expansion behavior of Favia favus (Cnidaria: Scleractinia): effects of light, flow, and planktonic prey Biological Bulletin 200 118–126 Occurrence Handle11341573 Occurrence Handle1:STN:280:DC%2BD3MnjsFWjsw%3D%3D

    PubMed  CAS  Google Scholar 

  • L. Muscatine C. Ferrier-Pagès A. Blackburn R. D. Gates G. Baghdasarian D. Allemand (1998) ArticleTitleCell-specific density of symbiotic dinoflagellates in tropical anthozoans Coral Reefs 17 329–337 Occurrence Handle10.1007/s003380050133

    Article  Google Scholar 

  • M. B. Peach O. Hoegh-Guldberg (1999) ArticleTitleSweeper polyps of the coral Goniopora tenuidens (Scleractinia: Poritidae) Invertebrate Biology 118 1–7

    Google Scholar 

  • J. W. Porter (1974) ArticleTitleZooplankton feeding by the Caribbean reef coral Montastraea cavernosa In Proceedings of the Second International Coral Reef Symposium 1 111–125

    Google Scholar 

  • G. H. Schmidt (1982) ArticleTitleReplacement of discharged cnidae in the␣tentacles of Anemonia sulcata Journal of the Marine Biological Association of the United Kingdom 62 685–691 Occurrence Handle10.1017/S0025315400019834

    Article  Google Scholar 

  • K. P. Sebens K. DeRiemer (1977) ArticleTitleDiel cycles of expansion and contraction in reef coral anthozoans Marine Biology 43 247–256 Occurrence Handle10.1007/BF00402317

    Article  Google Scholar 

  • J. C. Thomason B. E. Brown (1986) ArticleTitleThe cnidom: an index of aggressive proficiency in scleractinian corals Coral Reefs 5 93–101 Occurrence Handle10.1007/BF00270357

    Article  Google Scholar 

  • E. Vareschi H. Fricke (1986) ArticleTitleLight responses of a scleractinian coral (Plerogyra sinuosa) Marine Biology 90 395–402 Occurrence Handle10.1007/BF00428563

    Article  Google Scholar 

  • J. E. N. Veron (2000) Corals of the World 2 Australian Institute of Marine Science Townsville: 67–93

    Google Scholar 

  • J. W. Wells (1973) ArticleTitleNew and old scleractinian corals from Jamaica Bulletin of Marine Science 23 16–58

    Google Scholar 

  • V. N. Zlatarski (1982) Description systématique In Zlatarski V. N. & N. Martinez-Estalella (eds), Les Scléractiniaires de Cuba avec des données sur les organisms associés. L’Academie Bulgare des Sciences, Sofia: 182–224

    Google Scholar 

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  1. Department of Biological Sciences, Florida International University, University Park, Miami, FL, 33199, USA

    Walter M. Goldberg

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  1. Walter M. Goldberg
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Correspondence to Walter M. Goldberg.

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Goldberg, W.M. Epidermal structure of the scleractinian coral Mycetophyllia ferox: light-induced vesicles, copious mucocytes, and sporadic tentacles. Hydrobiologia 530, 451–458 (2004). https://doi.org/10.1007/s10750-004-2656-6

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  • DOI: https://doi.org/10.1007/s10750-004-2656-6

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