Abstract
Intracolony or syngeneic transplants of pieces of living coral, either occurring naturally on reefs or produced experimentally, were consistently compatible. In contrast, intercolony allografts performed extensively inAcropora formosa and inPorites andrewsii were incompatible, as were allografts occurring naturally in additional species observed in reef communities. Diverse interspecific combinations of coral xenografts generally displayed greater incompatibilities. Four levels of immuno-reactivity, with manifestations ranging from mild to severe, were distinguishable as follows: a) contact avoidance reactions, b) allogeneic contact incompatibility, c) chronic xenogeneic incompatibility, and d) acute interspecific aggression.Allogeneic incompatibility, most studied inA. formosa, was characterized by soft tissue contact avoidance wherever possible; absence of tissue death despite extensive enforced contact (18–20 days); and late interfacial cementation terminating allogeneic soft tissue contact. The properties ofchronic xenogeneic incompatibility as found in diverse species combinations, are slow onset (>7 days), bidirectional or unidirectional killing in contact zones, and short-range or localized effectiveness.Acute interspecific aggression initiated byFungia fungites as a dominant “aggressor ” is distinguished by early occurrence (2–7 days) and unidirectional contact killing. The presence or absence of these acute xenogeneic reactions sharply discriminated between species within each of the generaAcropora, Pocillopora, andPorites. No hierarchy of aggressive interactions was evident at the generic level.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Cooper, E.L.: Chronic allograft rejection inLumbricus terrestris.J. Exp. Zool. 171:69–74, 1969
Cooper, E.L., and Rubilotta, L.M.: Allograft rejection inEisenia foetida.Transplantation 8:220–223, 1969
Du Pasquier, L.: The genetic control of histocompatibility reactions Phylogenetic aspects.Arch. Biol. (Bruxelles) 85:91–103, 1974
Duprat, P.: Specificity of allograft reaction inEisenia foetida.Transplant. Proc. 2:222–225, 1970
Francis, L.: Intraspecific aggression and its effect on the distribution ofAnthopleura elegantissima and some related sea anemones.Biol. Bull. 14:73–92, 1973
Hauenschild, C.: Über die Vererbung einer Gewebetäglichkeits-Eigenschaft bei dem HydroidpolypenHydractinia echinata.Z. Naturforsch. 11:132–183, 1956
Hildemann, W.H.: Components and concepts of antigenic strength.Transplant. Rev. 3:5–21, 1970
Hildemann, W.H.: Some new concepts in immunological phylogeny.Nature 250:116–120, 1974
Hildemann, W.H., and Dix, T.G.: Transplantation reactions of tropical Australian echinoderms.Transplantation 15:624–633, 1972
Hildemann, W.H., Dix, T.D., and Collins, J.D.: Tissue transplantation in diverse marine invertebrates.In E.L. Cooper (ed.):Contemporary Topics in Immunobiology; Vol. 4, pp. 141–150, Plenum Publishing Corporation, New York, 1974
Hildemann, W.H., and Reddy, A.L.: Phylogeny of immune responsiveness: Marine invertebrates.Fed. Proc. 52:2188–2194, 1973
Hostetter, R.K., and Cooper, E.L.: Cellular anamnesis in earthworms.Cell. Immunol. 9:384–392, 1973
Ivker, F.B.: A hierarchy of histoincompatibility inHydractinia echinata.Biol. Bull. 143:162–174, 1972
Lang, J.: Interspecific aggression by scleractinian corals. 1. The rediscovery ofScolymia cubensis.Bull. Marine Sci. 21:952–959, 1971
Lang, J.: Interspecific aggression by scleractinian corals. 2. Why the race is not only to the swift.Bull. Marine Sci. 23:260–279, 1973
McClay, D.R.: An autoradiographic analysis of the species specificity during sponge cell reaggregation.Biol. Bull. 141:319–330, 1971
Mukai, H., and Watanabe, H.: On the occurrence of colony specificity in some compound ascidians.Biol. Bull. 147:411–421, 1974
Muscatine, L.: Nutrition of corals.In Biology and Geology of Coral Reefs; Vol. 2, 77–115, Academic Press, New York, 1973
Porter, J.W.: Community structure of coral reefs on opposite sides of the isthmus of Panama.Science 186:543–545, 1974
Reddy, A.L., Bryan, B., and Hildemann, W.H.: Integumentary allograft versus autograft reactions inCiona intestinalis, a protochordate species of solitary tunicate.Immunogenetics 1: 584–590 1975
Tanaka, K., and Watanabe, H.: Allogeneic inhibition in a compound ascidian,Botryllus primigenus Oka. 1. Processes and features of “nonfusion” reaction.Cell. Immunol. 7:410–426, 1973
Theodor, J.L.: Distinction between “self” and “not-self” in lower invertebrates.Nature 227:690–692, 1970
Valembois, P.: Rôle des leucocytes dans l'acquisition d'une immunité antigreffe specifique chez les Lombriciens.Arch. Zool. Exp. Genet. 112:97–104, 1971
Valembois, P.: Quelques aspects phylogeniques de la reaction d'incompatibilité aux greffes chez les Metazoaires.Ann. Biol. 12:1–26, 1973
Van de Vyver, G.: La non confluence intraspecifique chez les spongiares et la notion d'individu.Ann. Embyol. Morphol. 3:251–262, 1970
Wells, J.W.: Recent corals of the Marshall Islands, Bikini and nearby atolls, Part 2, Oceanography (Biologic). Geological Survey Professional Paper 260-I, U.S. Govt. Printing Office, Washington, D.C., 1954
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Hildemann, W.H., Linthicum, D.S. & Vann, D.C. Transplantation and immunoincompatibility reactions among reef-building corals. Immunogenetics 2, 269–284 (1975). https://doi.org/10.1007/BF01572295
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01572295