Hostname: page-component-848d4c4894-wg55d Total loading time: 0 Render date: 2024-04-30T12:45:34.277Z Has data issue: false hasContentIssue false
  • English
  • Français

The Impact of Acanthaster on Corals and Coral Reefs in the Eastern Pacific

Published online by Cambridge University Press:  24 August 2009

Peter W. Glynn
Peter W. Glynn
Affiliation:
Smithsonian Tropical Research Institute, P.O. Box 2072, Balboa, Canal Zone (Panamá)
Get access Rights & Permissions [Opens in a new window]

Extract

The movement of surface currents and the availability of coral prey are probably not responsible for the discontinuities in the distribution of Acanthaster (the Crown-of-thorns Starfish or Sea-star) in American waters. Temperature and salinity conditions are critical in development, and it is possible that these parameters are effective locally, for example in the Gulf of Panamá. There is a strong possibility that continuing field work will show that Acanthaster has a significantly more widespread distribution in the eastern Pacific than is currently known.

Adult Acanthaster and several species of coral prey exhibited an unusually high tolerance to varying conditions of temperature and salinity. The possibility of step-wise colonization to new areas, mediated by resistant adult populations that can become established during favourable seasons, should be considered in any plans to alter the existing freshwater canal in Panamá. For introductions can be environmentally dangerous.

The highest population densities of Acanthaster so far observed in the eastern Pacific, 1 individual/40 m2 to approximately 1 individual/100 m2, are comparable to population sizes in the Indo-Pacific region that are not considered to have a serious impact on coral communities. Coral destruction by Acanthaster can be significant in certain limited areas, but is usually less than that caused by other corallivores.

An analysis of coral community structure in relation to Acanthaster density failed to show a significant correlation with (a) number of species, (b) number of live coral colonies, (c) species diversity (H'), or (d) species evenness (J').

Prey preference data indicate that Acanthaster selectively destroys rare corals. Replacement of rare, predated corals by fast-growing species (Pocillopora spp.) has been observed in the field, showing that Acanthaster could have a negative effect on species diversity.

Type
Main Papers
Information
Environmental Conservation , Volume 1 , Issue 4 , Winter 1974 , pp. 295 - 304
Copyright
Copyright © Foundation for Environmental Conservation 1974

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abbott, D. P. (1966). Factors influencing the zoogeographic affinities of the Galápagos inshore marine fauna. Pp. 108–22 in The Galápagos. Proceedings of the Symposia of the Galápagos International Scientific Project (Ed. Bowman, R. I.). University of California Press, Berkeley: xvii + 318 pp., illustr.Google Scholar
Barham, E. G., Gowdy, R. W. & Wolfson, F. H. (1973). Acanthaster (Echinodermata, Asteroidea) in the Gulf of California. Fish. Bull., 71(4), pp. 927–42.Google Scholar
Branham, J. M. (1973). The Crown-of-thorns on coral reefs. BioScience, 23(4), pp. 219–26.CrossRefGoogle Scholar
Caso, M. E. (1962). Estudios sobre Astéridos de México: Observaciones sobre especies pacíficas del género Acanthaster y descriptión de una subespecie nueva, Acanthaster ellisii pseudoplanci. An. Inst. Biol., Mexico, 32(1/2), PP. 313–31.Google Scholar
Chesher, R. H. (1972). The status of knowledge of Panama nian echinoids, 1971, with comments on other echino-derms. Pp. 139–58 in The Panamic Biota: Some Observations Prior to a Sea-level Canal (Ed. Jones, M. L.). Bull. Biol. Soc. Wash. No. 2, viii + 270 pp., illustr.Google Scholar
Cromwell, T. & Bennett, E. B. (1959). Surface drift charts for the eastern tropical Pacific Ocean. Bull. Inter-Amer. Trop. Tuna Comm., 3(5), pp. 217–37.Google Scholar
Dana, T. & Wolfson, A. (1970). Eastern Pacific Crown-of-thorns Starfish populations in the lower Gulf of California. Trans. San Diego Soc. Nat. Hist., 16(4), pp. 8390.CrossRefGoogle Scholar
Dayton, P. K., Robilliard, G. A., Paine, R. T. & Dayton, L. B. (1974). Biological accommodation in the benthic community at McMurdo Sound, Antarctica. Ecol. Monogr., 44(1), pp. 105–28.Google Scholar
Emlen, J. M. (1973). Ecology: An Evolutionary Approach. Addison-Wesley, Reading, Massachusetts: xiv + 493 pp., illustr.Google Scholar
Endean, R. (1973). Population explosions of Acanthaster planci and associated destruction of hermatypic corals in the Indo–West Pacific region. Pp. 389–438 in Biology and Geology of Coral Reefs: 2, Biology 1 (Ed. Jones, O. A. & Endean, R.). Academic Press, New York: xxi + 480 pp., illustr.Google Scholar
Endean, R. & Chesher, R. H. (1973). Temporal and spatial distribution of Acanthaster planci population explosions in the Indo–West Pacific region. Biological Conservation, 5(2), pp. 8795.CrossRefGoogle Scholar
Endean, R. & Stablum, W. (1973). The apparent extent of recovery of reefs of Australia's Great Barrier Reef devastated by the Crown-of-thorns Starfish. Atoll Res. Bull., No. 168, iv + 26 pp., illustr.Google Scholar
Forsbergh, E. D. (1969). On the climatology, oceano graphy and fisheries of the Panama Bight. Bull. Inter-Amer. Trop. Tuna Comm., 14(2), pp. 49385.Google Scholar
Glynn, P. W. (1970 a). Indo-Pacific Starfish Plague. Event 45-69 (Rept 11) Smithsonian Inst. Center for Short-lived Phenomena, Cambridge, Mass., 1 p.Google Scholar
Glynn, P. W. (1970 b). Panama Acanthaster Survey (Indo-Pacific Starfish Plague). Event 45-69 (Rept 12) Smith sonian Inst. Center for Short-lived Phenomena, Cambridge, Mass., 1 p.Google Scholar
Glynn, P. W. (1972). Observations on the ecology of the Caribbean and Pacific coasts of Panamá. Pp. 1330 in The Panamic Biota: Some Observations Prior to a Sea-level Canal (Ed. Jones, M. L.). Bull. Biol. Soc. Wash., No. 2, viii + 270 pp., illustr.Google Scholar
Glynn, P. W. (1973). Acanthaster: effect on coral reef growth in Panama. Science, 180, pp. 504–6.CrossRefGoogle ScholarPubMed
Glynn, P. W., Stewart, R. H. & Mccosker, J. E. (1972). Pacific coral reefs of Panamá: structure, dístribution and predators. Geol. Rundsch., 61(2), pp. 483519.CrossRefGoogle Scholar
Henderson, J. A. & Lucas, J. S. (1971). Larval development and metamorphosis of Acanthaster planci (Asteroidea). Nature (London), 232 (5313), pp. 655–7.Google Scholar
Hubbs, C. L. & Roden, G. I. (1964). Oceanography and marine life along the Pacific coast of Middle America. Pp. 143–86 in Handbook of Middle American Indians: 1, Natural Environment and Early Cultures (Ed. Wauchope, R. (gen.) & West, R. C. (vol.)). University of Texas Press, Austin: vii + 570 pp., illustr.CrossRefGoogle Scholar
Lucas, J. S. (1973). Reproductive and larval biology of Acanthaster planci (L.) in Great Barrier Reef waters. Micronesica, 9(2), pp. 197203.Google Scholar
Madsen, F. J. (1955). A note on the sea-star genus Acanthaster. Vidensk. Medd. fra Dansk naturh. Foren., 117, pp. 179–92.Google Scholar
Myers, C. W. (1969). The ecological geography of cloud forest in Panama. Amer. Mus. Novitates, No. 2396, pp. 152.Google Scholar
Newman, W. A. & Dana, T. F. (1974). Acanthaster: tests of the time course of coral destruction. Science, 183(4120), p. 103.CrossRefGoogle ScholarPubMed
Ormond, R. F. G. & Campbell, A. C. (1971). Observa tions on Acanthaster planci and other coral reef echinoderms in the Sudanese Red Sea. Pp. 433–54 in Regional Variation in Indian Ocean Coral Reefs (Ed. Stoddart, D. R. & Yonge, C. M.). Symposia Zool. Soc. London, 28, Academic Press, London: xxxv + 584 pp., illustr.Google Scholar
Paine, R. T. (1966). Food web complexity and species diversity. Amer. Natur., 100(910), pp. 6575.CrossRefGoogle Scholar
Patrick, R. (1972). Benthic communities in streams. Pp. 269–84 in Growth by Intussusception, Ecological Essays in Honor of G. Evelyn Hutchinson (Ed. Deevey, E. S.). Trans. Conn. Acad. Arts & Sci., 44, 443 pp., illustr.Google Scholar
Porter, J. W. (1972). Predation by Acanthaster and its effect on coral species diversity. Amer. Natur., 106(950), pp. 487–92.CrossRefGoogle Scholar
Randall, R. H. (1973). Distribution of corals after Acanthaster planci (L.) infestation at Tanguisson Point, Guam. Micronesica, 9(2), pp. 213–22.Google Scholar
Thorson, G. (1961). Length of pelagic larval life in marine bottom invertebrates as related to larval transport by ocean currents. Pp. 455–74 in Oceanography (Ed. Sears, M.). American Association for the Advancement of Science, Pub. No. 67, Washington, D.C.: xi + 654 pp., illustr.Google Scholar
U. S. Navy Hydrographic Office (1954). World Atlas of Sea Surface Temperatures. H. O. Pub. No. 225 (reprint), Washington, D. C.: [49] pp. incl. 48 charts.Google Scholar
Yamaguchi, M. (1973). Early life-histories of coral reef asteroids, with special reference to Acanthaster planci (L.). Pp. 369–87 in Biology and Geology of Coral Reefs: 2, Biology 1 (Ed. Jones, O. A. & Endean, R.). Academic Press, New York: xxi + 480 pp., illustr.Google Scholar
Yamazato, K. & Kiyan, T. (1973). Reproduction of Acanthaster planci in Okinawa. Micronesica, 9(2), pp. 185–95.Google Scholar