Helgoländer Meeresuntersuchungen

, Volume 37, Issue 1–4, pp 113–137 | Cite as

A survey of cellular reactions to environmental stress and disease in Caribbean scleractinian corals

  • Esther C. Peters


Despite growing concern about the demise of coral reefs in many areas of the world, few studies have investigated the possibility that bacteria- or virus-caused diseases may be important agents in the disappearance of living coral tissue from reefs, and that their occurrence and transmission may be influenced by natural or man-made changes in water quality, particularly increased sedimentation and turbidity. One forereef site off St. Croix, U. S. Virgin Islands, and three shallow-water reef sites off Puerto Rico were examined for variations in coral composition, local environmental conditions, and the presence of possible diseases in the stony corals. Visual observations were supplemented with standard histopathological examination under the light microscope of tissues from 257 specimens (representing 9 genera and 13 species), along with additional samples obtained from the Netherlands Antilles, the Grenadines, the Florida Keys and the Smithsonian Coral Reef Microcosm. This procedure proved to be necessary to accurately determine the condition of the colony, to detect the presence of microorganisms, and to correlate tissue health and microparasite infestations with apparent symptoms. These lesions varied with the species and the site. For example, off Guayanilla Bay, three species showed increased or decreased mucosecretory cell development, and another exhibited an unusual microparasite, which may be related to the chronic sedimentation at this site. Although colonies of several species showed signs of “white band disease” at five locations, bacterial colonies composed of Gram-negative rods were present only in acroporid tissues from the relatively pristine St. Croix site and the Netherlands Antilles. The distribution and possible mode of occurrence of these and other diseases and microparasite infestations suggest that acute changes in microhabitat conditions or injuries to individual colonies may be as important to the development of some of these lesions as are chronic adverse environmental conditions over a particular reef.


Coral Reef Forereef Scleractinian Coral Local Environmental Condition Adverse Environmental Condition 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Literature cited

  1. Adey, W. H., 1983. The microcosm: a new tool for reef research. — Coral Reefs1, 193–201.CrossRefGoogle Scholar
  2. Almy, C. C., Jr. & Carrion-Torres, C., 1963. Shallow-water stony corals of Puerto Rico. — Caribb. J. Sci.3, 133–162.Google Scholar
  3. Anderson, R. M. & May, R. M., 1981. The population dynamics of microparasites and their invertebrate hosts. — Phil. Trans. R. Soc. Lond. (B)291, 451–524.Google Scholar
  4. Antonius, A., 1973. New observations on coral destruction in reefs. Meet. Ass. Isl. Mar. Lab. Caribb., Univ. Puerto Rico, Mayaguez,10, 3 (Abstracts).Google Scholar
  5. Antonius, A., 1977. Coral mortality in reefs: a problem for science and management. — Proc. 3rd int. Coral Reef Symp., Miami,2, 617–623.Google Scholar
  6. Antonius, A., 1981a. Coral reef pathology: a review. — Proc. 4th int. Coral Reef Symp., Manila,2, 3–6.Google Scholar
  7. Antonius, A., 1981b. The “band” diseases in coral reefs. — Proc. 4th int. Coral Reef Symp., Manila,2, 6–14.Google Scholar
  8. Bak, R. P. M., 1978. Lethal and sublethal effects of dredging on reef corals. — Mar. Pollut. Bull.9, 14–16.CrossRefGoogle Scholar
  9. Bak, R. P. M., 1983. Neoplasia, regeneration and growth in the reef-building coralAcropora palmata. — Mar. Biol.77, 221–227.CrossRefGoogle Scholar
  10. Bak, R. P. M. & Criens, S. R., 1981. Survival after fragmentation of colonies ofMadracis mirabilis, Acropora palmata andA. cervicornis (Scleractinia) and the subsequent impact of a coral disease. — Proc. 4th int. Coral Reef Symp., Manila,2, 221–228.Google Scholar
  11. Bak, R. P. M. & Elgershuizen, J. H. B. W., 1976. Patterns of oil-sediment rejection in corals. — Mar. Biol.37, 105–113.CrossRefGoogle Scholar
  12. Bak, R. P. M. & Steward-van Es, Y., 1980. Regeneration of superficial damage in the scleractinian coralsAgaricia agaricites f.purpurea andPorites astreoides. — Bull. mar. Sci.30, 883–887.Google Scholar
  13. Bang, F. B., 1980. Monitoring pathological changes as they occur in estuaries and in the ocean in order to measure pollution (with special reference to invertebrates). — Rapp. P. -v. Reun. Cons. int. Explor. Mer179, 118–124.Google Scholar
  14. Barszcz, C. A. & Yevich, P. P., 1975. The use of Helly's fixative for marine invertebrate histopathology. — Comp. Path. Bull.7, 4.Google Scholar
  15. Brawley, S. H. & Adey, W. H., 1977. Territorial behavior of threespot damselfish(Eupomacentrus planifrons) increases reef algal biomass and productivity. — Environ. Biol. Fish.2, 45–51.CrossRefGoogle Scholar
  16. Brawley, S. H. & Adey, W. H., 1982.Coralliophila abbreviata: a significant corallivore! — Bull. mar. Sci.32, 595–599.Google Scholar
  17. Burkholder, P. R. & Burkholder, L. M., 1958. Antimicrobial activity of horny corals. — Science, N. Y.199, 1302–1309.Google Scholar
  18. Butter, M. E., 1979. Biology and infestation rate ofCorallonoxia longicauda, an endoparasitic copepod of the West Indian reef coralMeandrina meandrites. — Bijdr. Dierk.48, 141–155.Google Scholar
  19. Cheney, D. P., 1975. Hard tissue tumors of scleractinian corals. In: Immunologic phylogeny. Ed. by W. H. Hildemann & A. A. Benedict. Plenum Press, New York, 77–87.Google Scholar
  20. Cheng, T. C. & Wong, A. K. L., 1974. Chemical, histochemical and histopathological studies on corals,Porites spp., parasitized by trematode metacercariae. — J. Invertebr. Pathol.23, 303–317.CrossRefPubMedGoogle Scholar
  21. Cheville, N. F., 1976. Cell Pathology. The Iowa State Univ. Press, Ames, 515 pp.Google Scholar
  22. Connell, J. H., 1978. Diversity in tropical rain forests and coral reefs. — Science, N. Y.199, 1302–1309.Google Scholar
  23. Dana, T. F., 1976. Reef-coral dispersion patterns and environmental variables on a Caribbean coral reef. — Bull. mar. Sci.26, 1–13.Google Scholar
  24. Dodge, R. E., Aller, R. C. & Thomson, J., 1974. Coral growth related to resuspension of bottom sediments. — Nature, Lond.247, 574–577.Google Scholar
  25. Dodge, R. E. & Vaisnys, J. R., 1977. Coral populations and growth patterns: responses to sedimentation and turbidity associated with dredging. — J. mar. Res.35, 715–730.Google Scholar
  26. Ducklow, H. W. & Mitchell, R., 1979. Observations on naturally and artificially diseased tropical corals: a scanning electron microscope study. — Microb. Ecol.5, 215–233.CrossRefGoogle Scholar
  27. Dustan, P., 1977. Vitality of reef coral populations off Key Largo: recruitment and mortality. — Environ. Geol.2, 51–58.Google Scholar
  28. Endean, R., 1976. Destruction and recovery of coral reef communities. In: Biology and geology of coral reefs. Ed. by O. A. Jones & R. Endean. Acad. Press, New York,3, 215–254.Google Scholar
  29. Frydl, P., 1979. The effect of parrotfish (Scaridae) on coral in Barbados, W. I. — Int. Revue ges. Hydrobiol.64, 737–748.Google Scholar
  30. Garrett, P. & Ducklow, H., 1975. Coral diseases in Bermuda. — Nature, Lond.253, 349–350.Google Scholar
  31. Gladfelter, W. B., 1982. White band disease inAcropora palmata: implications for the structure and growth of shallow reefs. — Bull. mar. Sci.,32, 639–643.Google Scholar
  32. Gladfelter, W. B., Gladfelter, E. H., Monahan, R. K., Ogden, J. C. & Dill, R. F., 1977. Coral destruction. Environmental Studies of Buck Island Reef National Monument. — U. S. Natn. Park Service Rep., 144 pp.Google Scholar
  33. Glynn, P. W., 1973. Aspects of the ecology of coral reefs in the Western Atlantic region. In: Biology and geology of coral reefs. Ed. by O. A. Jones & R. Endean. Acad. Press, New York,2, 271–325.Google Scholar
  34. Glynn, P. W., Almodovar, L. R. & Gonzalez, J. G., 1964. Effects of Hurricane Edith on marine life in La Parguera, Puerto Rico. — Caribb. J. Sci.4, 335–345.Google Scholar
  35. Goreau, T. F., 1964. Mass expulsion of zooxanthellae from Jamaican reef communities after Hurricane Flora. — Science N. Y.145, 383–386.Google Scholar
  36. Goreau, T. F., Goreau, N. I. & Goreau, T. J., 1979. Corals and coral reefs. — Scient. Am.24, 124–136.Google Scholar
  37. Grigg, R. W. & Dollar, S. J., 1981. Impact of a kaolin clay spill on a coral reef in Hawaii. — Mar. Biol.65, 269–276.CrossRefGoogle Scholar
  38. Herriott, A. B. & Immermann, F. W., 1979. A preliminary report on copepods endoparasitic in stony corals of St. Croix, U. S. Virgin Islands. — Crustaceana36, 166–172.Google Scholar
  39. Hodgins, H. O., McCain, B. B. & Hawkes, J. W., 1977. Marine fish and invertebrate diseases, host disease resistance, and pathological effects of petroleum. In: Effects of petroleum on arctic and subarctic marine environments and organisms. Ed. by D. C. Malins. Acad. Press, New York,2, 95–175.Google Scholar
  40. Hubbard, J. A. E. B. & Pocock, Y. P., 1972. Sediment rejection by recent scleractinian corals: a key to paleoenvironmental reconstruction. — Geol. Rdsch.61, 598–626.CrossRefGoogle Scholar
  41. Hudson, J. H., 1981a. Growth rates ofMontastrea annularis: a record of environmental change in Key Largo Reef Marine Sanctuary, Florida. — Bull. mar. Sci.31, 444–459.Google Scholar
  42. Hudson, J. H., 1981b. Response ofMontastrea annularis to environmental change in the Florida Keys. — Proc. 4th int. Coral Reef Symp., Manila,2, 233–240.Google Scholar
  43. Hughes, T. P. & Jackson, J. B. C., 1980. Do corals lie about their age? Some demographic consequences of partial mortality, fission, and fusion. — Science, N. Y.209, 713–715.Google Scholar
  44. Johannes, R. E., 1972. Coral reefs and pollution. In: Marine pollution and sea life. Ed. by M. Ruivo. Fishing News Books, London, 364–375.Google Scholar
  45. Johannes, R. E., 1975. Pollution and degradation of coral reef communities. In: Tropical marine pollution. Ed. by E. G. F. Wood & R. E. Johannes. Elsevier, New York, 13–51.Google Scholar
  46. Johannes, R. E., 1976. Life and death of the reef. — Audubon78, 36–55.Google Scholar
  47. Kaufman, L., 1977. The threespot damselfish: effects on benthic biota of Caribbean coral reefs. — Proc. 3rd int. Coral Reef Symp., Miami,1, 559–564.Google Scholar
  48. Knowlton, N., Lang, J. C., Rooney, M. C. & Clifford, P., 1981. When hurricanes kill corals: evidence for delayed mortality in Jamaican staghorns. — Nature, Lond.294, 251–252.Google Scholar
  49. Kudo, R. R., 1966. Protozoology. Thomas, Springfield, Ill., 1174 pp.Google Scholar
  50. Lauckner, G., 1980. Diseases of Cnidaria. In: Diseases of marine animals. Ed. by O. Kinne. Wiley, New York,1, 167–237.Google Scholar
  51. Lobel, P. S., 1980. Herbivory by damselfishes and their role in coral reef community ecology. — Bull. mar. Sci.30, 273–289.Google Scholar
  52. Lopez, J. M. (Ed.), 1979. Proceedings of the Symposium on energy industry and the marine environment in Guayanilla Bay. Univ. Puerto Rico, U. S. Dep. of Energy, 94 pp.Google Scholar
  53. Loya, Y., 1972. Community structure and species diversity of hermatypic corals at Eilat, Red Sea. — Mar. Biol.13, 100–123.CrossRefGoogle Scholar
  54. Loya, Y., 1976. Effects of water turbidity and sedimentation on the community structure of Puerto Rican corals. — Bull. mar. Sci.26, 450–466.Google Scholar
  55. Loya, Y., 1977. Plotless and transect methods. In: Coral reefs: research methods. Ed. by D. R. Stoddart & R. E. Johannes. UNESCO, Paris, 197–217.Google Scholar
  56. Lukas, K. J., 1973. Taxonomy and ecology of the endolithic microflora of reef corals with a review of the literature on endolithic microphytes. Ph. D. Thesis, Univ. Rhode Island, 159 pp.Google Scholar
  57. Luna, L. G. (Ed.), 1968. Manual of histologic techniques of the Armed Forces Institute of Pathology. McGraw-Hill, New York, 258 pp.Google Scholar
  58. Marshall, S. M. & Orr, A. P., 1931. Sedimentation on Low Isles Reef and its relation to coral growth. — Scient. Rep. Gt. Barrier Reef Exped.1 (5), 94–133.Google Scholar
  59. Marszalek, D. S., 1981. Impact of dredging on a subtropical reef community, southeast Florida, U. S. A. — Proc. 4th int. Coral Reef Symp., Manila1, 147–153.Google Scholar
  60. Mitchell, R. & Chet, I., 1975. Bacterial attack of corals in polluted seawater. — Microb. Ecol.2, 227–233.Google Scholar
  61. Morelock, J., Boulon, K. & Galler, G., 1979. Sediment stress and coral reefs. In: Proceedings of the Symposium on energy industry and the marine environment in Guayanilla Bay. Univ. Puerto Rico, U. S. Dep. of Energy, 46–58.Google Scholar
  62. Morelock, J., Schniedermann, N. & Bryant, W. R., 1977. Shelf reefs, southwestern Puerto Rico. In: Reefs and related carbonates — ecology and sedimentology. Am. Ass. Petr. Geol., Tulsa, 135–153.Google Scholar
  63. Muscatine, L., 1973. Nutrition of corals. In: Biology and geology of coral reefs. Ed. by O. A. Jones & R. Endean. Acad. Press, New York,2, 77–115.Google Scholar
  64. Odum, H. T. & Odum, E. P., 1955. Trophic structure and productivity of a windward coral reef community on Eniwetok Atoll. — Ecol. Monogr.25, 291–320.Google Scholar
  65. Ott, B. & Lewis, J. B., 1972. The importance of the gastropodCoralliophila abbreviata (Lamarck) and the polychaeteHermodice carunculata (Pallas) as coral reef predators. — Can. J. Zool.,50, 1651–1656.Google Scholar
  66. Peters, E. C., 1978. Effects of long-term exposure of the coralManicina areolata (Linné, 1758) to water-soluble oil extracts. M. S. Thesis, Univ. South Florida, Tampa, 167 pp.Google Scholar
  67. Peters, E. C., Meyers, P. A., Yevich, P. P. & Blake, N. J., 1981. Bioaccumulation and histopathological effects of oil on a stony coral. — Mar. Pollut. Bull.12, 333–339.CrossRefGoogle Scholar
  68. Peters, E. C., Oprandy, J. J. & Yevich, P. P., 1983. Possible causal agent of “white band disease” in Caribbean acroporid corals. — J. Invertebr. Pathol.41, 394–396.CrossRefGoogle Scholar
  69. Potts, D. C., 1977. Suppression of coral populations by filamentous algae within damselfish territories. — J. exp. mar. Biol. Ecol.28, 207–216.CrossRefGoogle Scholar
  70. Ricard, M., 1981. Some effects of dredging on the primary production of the Tiahura Lagoon in Moorea (Society Islands, French Polynesia). — Proc. 4th int. Coral Reef Symp., Manila,1, 431–436.Google Scholar
  71. Rinkevich, B. & Loya, Y., 1977. Harmful effects of chronic oil pollution on a Red Sea scleractinian coral population. — Proc. 3rd int. Coral Reef Symp., Miami,2, 585–591.Google Scholar
  72. Rinkevich, B. & Loya, Y., 1979. Laboratory experiments on the effects of crude oil on the Red Sea coralStylophora pistillata. — Mar. Pollut. Bull.10, 328–330.CrossRefGoogle Scholar
  73. Robertson, R., 1970. Review of the predators and parasites of stony corals, with special reference to symbiotic prosobranch gastropods. — Pacif. Sci.24, 43–54.Google Scholar
  74. Rogers, C. S., 1977. The response of a coral reef to sedimentation. Ph. D. Thesis, Univ. Florida, Gainesville, 195 pp.Google Scholar
  75. Rogers, C. S., 1979. The effect of shading on coral reef structure and function. — J. exp. mar. Biol. Ecol.41, 269–288.CrossRefGoogle Scholar
  76. Rogers, C. S., Suchanek, T. H. & Pecora, F. A., 1982. Effects of hurricanes David and Frederic (1979) on shallowAcropora palmata reef communities: St. Croix, U. S. Virgin Islands. — Bull. mar. Sci.32, 532–548.Google Scholar
  77. Roy, K. J. & Smith, S. V., 1971. Sedimentation and coral reef development in turbid water: Fanning Lagoon. — Pacif. Sci.25, 234–248.Google Scholar
  78. Rublee, P. A., Lasker, H. R., Gottfried, M. & Roman, M. R., 1980. Production and bacterial colonization of mucus from the soft coralBriareum asbestinum. — Bull. mar. Sci.30, 888–893.Google Scholar
  79. Sammarco, P. W. & Williams, A. H., 1982. Damselfish territoriality: influence onDiadema distribution and implications for coral community structure. — Mar. Ecol. Prog. Ser.8 53–59.Google Scholar
  80. Schumacher, H., 1979. Experimentelle Untersuchungen zur Anpassung von Fungiiden (Scleractinia, Fungiidae) an unterschiedliche Sedimentations- und Bodenverhältnisse. — Int. Rev. ges. Hydrobiol.64 207–318.Google Scholar
  81. Sheppard, C. R. C., 1980. Coral fauna of Diego Garcia lagoon, following harbour construction. — Mar. Pollut. Bull.11 227–230.CrossRefGoogle Scholar
  82. Sheppard, C. R. C., 1982. Coral populations on reef slopes and their major controls. — Mar. Ecol. Prog. Ser.7 83–115.Google Scholar
  83. Sindermann, C. J., Bang, F. B., Christensen, N. O., Dethlefsen, V., Harshbarger, J. C., Mitchell, J. R. & Mulcahy, M. F., 1980. The role and value of pathobiology in pollution effects monitoring programs. — Rapp. P. -v. Reun. Cons. int. Explor. Mer179 135–151.Google Scholar
  84. Squires, D. F., 1962. Corals at the mouth of the Rewa River, Viti Levu, Fiji. — Nature, Lond.195 361–362.Google Scholar
  85. Stebbing, A. R. D., 1981. Stress, health and homeostasis. — Mar. Pollut. Bull.12 326–329.CrossRefGoogle Scholar
  86. Stephenson, W., Endean, R. & Bennett, I., 1958. An ecological survey of the marine fauna of Low Isles, Queensland. — Aust. J. mar. Freshwat. Res.9 261–318.Google Scholar
  87. Stock, J. H., 1975. Corallovexiidae, a new family of transformed copepods endoparasitic in reef corals. — Stud. Fauna Curaçao155 1–45.Google Scholar
  88. Voss, G. L., 1973. Sickness and death in Florida's coral reefs. — Nat. Hist.82 41–47.Google Scholar
  89. Walker, D. I. & Ormond, R. F. G., 1982. Coral death from sewage and phosphate pollution at Aquaba, Red Sea. — Mar. Pollut. Bull.13 21–25.CrossRefGoogle Scholar
  90. Yevich, P. P. & Barszcz, C. A., 1982. Preparation of aquatic animals for histopathological examination. In: Biological field and laboratory methods for measuring the quality of surface waters and effluents. U. S. Environ. Prot. Agency, Cinncinati, Ohio. (In press).Google Scholar
  91. Yevich, P. P. & Barszcz, C. A., 1983. Histopathology as a monitor for marine pollution: results of the histopathologic examination of the animals collected for the U.S. 1976 Mussel Watch Program. — Rapp. P. -v. Reun. Cons. int. Explor. Mer182 96–102.Google Scholar

Copyright information

© Biologische Anstalt Helgoland 1984

Authors and Affiliations

  • Esther C. Peters
    • 1
  1. 1.Graduate School of OceanographyUniversity of Rhode IslandNarragansettUSA

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