Summary
Between-habitat differences in macrophyte consumption by herbivorous fishes were examined on three Caribbean and two Indian Ocean coral reefs. Transplanted sections of seagrasses were used as a bioassay to compare removal rates in reef-slope, reef-flat, sand-plain, and lagoon habitats. Herbivore susceptibility of fifty-two species of seaweeds from these habitats was also measured in the field. Seagrass consumption on shallow reef slopes was always significantly greater than on shallow reef flats, deep sand plains, or sandy lagoons. Reef-slope seaweeds were consistently resistant to herbivory while reef-flat seaweeds were consistently very susceptible to herbivory. This pattern supports the hypothesis that defenses against herbivores are costly in terms of fitness and are selected against in habitats with predictably low rates of herbivory.
Sand-plain and lagoon seaweeds showed a mixed response when placed in habitats with high herbivore pressure; most fleshy red seaweeds were eaten rapidly, most fleshy green seaweeds were eaten at intermediate rates, and most calcified green seaweeds were avoided or eaten at very low rates. Differences in susceptibility between red and green seaweeds from sand-plain or lagoon habitats may result from differential competitive pressures experienced by these seaweed groups or from the differential probability of being encountered by herbivores. The susceptibility of a species to removal by herbivorous fishes was relatively consistent between reefs. Preferences of the sea urchin Diadema antillarum were also similar to those of the fish guilds.
Unique secondary metabolites were characteristic of almost all of the most herbivore resistant seaweeds. However, some of the herbivore susceptible species also contain chemicals that have been proposed as defensive compounds. Genera such as Sargassum, Turbinaria, Thalassia, Halodule, and Thalassodendron, which produce polyphenolics or phenolic acids, were consumed at high to intermediate rates, suggesting that these compounds are not effective deterrents for some herbivorous fishes. Additionally, potential for the production of the compounds caulerpin, caulerpicin and caulerpenyne in various species of Caulerpa did not assure low susceptibility to herbivory.
Heavily calcified seaweeds were very resistant to herbivory, but all of these species also produce toxic secondary metabolites which makes it difficult to distinguish between the effects of morphological and chemical defenses. Predictions of susceptibility to herbivory based on algal toughness and external morphology were of limited value in explaining differing resistances to herbivory.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adey WH, Vassar JM (1975) Colonization, succession and growth rates of tropical crustose coralline algae (Rhodophyta, Cryptonemiales). Phycologia 14:55–69
Baden DG, Corbett MD (1980) Bromoperoxidases from Penicillus capitatus, Penicillus lamourouxii and Rhipocephalus phoenix. Biochem J 187:205–211
Bjorndal KA (1980) Nutrition and grazing behavior of the green turtle Chelonia mydas. Mar Biol 56:147–154
Brawley SH, Adey WH (1981) The effect of micrograzers on algal community structure in a coral reef microcosm. Mar Biol 61:167–177
Dahl AL (1973) Benthic algal ecology in a deep reef and sand habitat off Puerto Rico. Bot Mar 16:171–175
Dethier MN (1981) Heteromorphic algal life histories: the seasonal pattern and response to herbivory of the brown crust, Ralfsia californica, Oecoliga (Berlin) 49:333–339
Dieter RK, Kinnel R, Meinwald J, Eisner T (1979) Brasudol and isobrasudol: two bromosesquiterpenes from a sea hare (Aplysia brasiliana). Tetrahedron Lett 1979:1645–1648
Earle SA (1972) The influence of herbivores on the marine plants of Great Lameshur Bay, with an annotated list of plants. Pages 17–44 in Collette BB, Earle SA (eds) Results of the tektite program: ecology of coral reef fishes. Nat Hist Mus Los Ang Cty Sci Bull 14
Feeny P (1976) Plant apparency and chemical defense. Recent Adv Phytochem 10:1–40
Fenical W (1975) Halogenation in the Rhodophyta: a review. J Phycol 11:245–259
Gaines SD, Lubchenco J (1982) A unified approach to marine plant-herbivore interactions. II. biogeography. Ann Rev Ecol Syst 13:111–138
Geiselman JA, McConnell OJ (1981) Polyphenols in brown algae Fucus vesiculosus and Ascophyllum nodosum: chemical defenses against the marine herbivorous snail, Littorina littorea. J Chem Ecol. 7:1115–1133
Gerwick WH, Fenical W (1981) Ichthyotoxic and cytotoxic metabolites of the tropical brown alga Stypopodium zonale (Lamouroux) Papenfuss. J Org Chem 46:22–27
Gerwick WH, Fenical W (1982) Phenolic lipids from related marine algae of the order Dictyotales. Phytochemistry 21:633–637
Gerwick WH, Fenical W, Fritsch N, Clardy T (1979) Stypotriol and stypoldione, ichthyotoxins of mixed biosynthesis from the marine alga Stypopodium zonale. Tetrahedron Lett 1979(2):145–148
Hatcher BG (1982) The interaction between grazing organisms and the epilithic algal community of a coral reef: a quantitative assessment. Pages 515–524 in Gomez E (ed) Proc. 4th Int. Coral Reef Symp., Manila 1981, Vol 2, U of the Philippines
Hatcher BG, Larkum AWD (1983) An experimental analysis of factors controlling the standing crop of the epilithic algal community on a coral reef. J Exp Mar Biol Ecol 69:61–84
Hay ME (1981a) Herbivory, algal distribution, and the maintenance of between-habitat diversity on a tropical fringing reef. Am Nat 118:520–540
Hay ME (1981b) Spatial patterns of grazing intensity on a Caribbean barrier reef: herbivory and algal distribution. Aquat Bot 11:97–109
Hay ME (1981c) The functional morphology of turf-forming seaweeds: persistence in stressful marine habitats. Ecology 62:739–750
Hay ME (1984) Patterns of fish and urchin grazing on Caribbean coral reefs: are previous results typical? Ecology 65:446–454
Hay ME, Colburn T, Downing D (1983) Spatial and temporal patterns in herbivory on a Caribbean fringing reef: the effects on plant distribution. Oecologia (Berlin) 58:299–308
Hay ME, Fuller PJ (1981) Seed escape from heteromyid rodents: the importance of microhabitat and seed preference. Ecology 62:1395–1399
Hay ME, Gaines SD (1984) Geographic differences in herbivore impact: do Pacific herbivores prevent Caribbean seaweeds from colonizing via the Panama canal? Biotropica 16:24–30
Hay ME, Goertemiller T (1983) Between-habitat differences in herbivore impact on Caribbean coral reefs. Pages 97–102 in Reaka ML (ed) The ecology of deep and shallow coral reefs. Symposia series for undersea research Vol. 1. Office of undersea research, NOAA, Rockville, Maryland, USA
Hornsey IS, Hide D (1974) The production of antimicrobial compounds by British marine algae I. Antibiotic-producing marine algae. Br Phycol J 9:353–361
Lewis SM (1984) The role of herbivory in the organization of tropical eeef communities. Dissertation. Duke, University, USA
Littler MM, Littler DS (1980) The evolution of thallus from and survival strategies in benthic marine macroalgae: field and laboratory tests of a functional-form model. Am Nat 116:25–44
Littler MM, Littler DS, Taylor PR (1983a) Evolutionary strategies in a tropical barrier reef system: functional-form groups of marine macroalgae J Phycol 19:229–237
Littler MM, Taylor PR, Littler DS (1983b) Algal resistance to herbivory on a Caribbean barrier reef. Coral Reefs 2:111–118
Lobel PS (1981) Trophic biology of herbivorous reef fishes: alimentary pH and digestive capabilities. J Fish Biol 19:365–397
Lobel, PS, Ogden JC (1981) Foraging by the herbivorous parrotfish Sparisoma radians. Mar Biol 64:173–183
Luchenco J (1978) Plant species diversity in a marine intertidal community: importance of herbivore food preference and algal competitive abilities. Am Nat 112:23–39
Lubchenco J (1983) Littorina and Fucus: effects of herbivores, substratum heterogeneity, and plant escapes during succession. Ecology 64:1116–1123
Lubchenco J, Gaines SD (1981) A unified approach to marine plant-herbivore interactions. I. populations and communities. Ann Rev Ecol Syst 12:405–437
McConnell, OJ, Hughes PA, Targett NM, Daley J (1982) Effects of secondary metabolities on feeding by the sea urchin, Lytechinus variegatus. J Chem Ecol 8:1427–1453
McLachlan J, Craigie JS (1966) Antialgal activity of some simple phenols. J Phycol 2:133–135
Menge BA, Lubchenco J (1981) Community organization in temperate and tropical rocky intertidal habitats: prey refuges in relation to consumer pressure gradients. Ecol Monogr 51:429–450
Montgomery WL, Gerking SD (1980) Marine macroalgae as foods for fishes: an evaluation of potential food quality. Environ Biol. Fishes 5: 143–153
Norris JN, Fenical W (1982) Chemical defense in tropical marine algae. In: Rutzler K, Macintyre IG (eds) Atlantic barrier reef ecosystem Carrie Bow Cay, Belize, 1: structure and communities. Smithsonian Cont Mar Sci 12:417–431
Norris JN, Fenical WH (in press) Natural products chemistry of marine benthic algae: uses in ecology and systematics. In Littler MM, Littler DS (eds) Handbook of phycological methods: ecological methods for macroalgae. Cambridge University Press, Cambridge
Ogden JC (1976) Some aspects of herbivore-plant relationships on Caribbean reefs and seagrass beds. Aquat Bot 2:103–106
Ogden JC, Brown RA, Salesky N (1973) Grazing by the echinoid Diameda antillarum Philippi: formation of halos around West Indian patch reefs. Science 182:715–717
Paul V, Fenical W (1983) Isolation of Halimedatrial: chemical defense adaptations in the calcareous reef-building alga Halimeda. Science 221:747–749
Paul VJ, Fenical W (1984) Bioactive terpenoids from Caribbean marine algae of the genera Penicillus and Udotea. Tetrahedron Lett (in press)
Paul VJ, Sun HH, Fenical W (1982) Udoteal, a linear diterphenoid feeding deterrent from the tropical green alga Udotea flabellum. Phytochemistry 21:468–469
Power ME, Mathews WJ (1983) Algae-grazing minnows (Campostoma anomalum), piscivorous bass (Micropterus spp.), and the distribution of attached algae in a small prairie-margin stream. Oecologia (Berlin) 60:328–332
Randall JE (1961) Overgrazing of algae by herbivorous marine fishes. Ecology 42:812
Randall JE (1965) Grazing effect on seagrasses by herbivrous reef fishes in the West Indies. Ecology 46:255–260
Randall JE (1974) The effect of fishes on coral reefs. Pages 159–166 in Proc 2nd Int Coral Reef Symp 1. Great Barrier Reef Committee, Brisbane, Australia
Rhoades D (1979) Evolution of plant chemical defenses against herbivory. Pages 3–54 in Rosenthal G, Janzen D (eds) Herbivores: their interactions with secondary plant metabolites. Academic Press, New York, USA
Rhoades D, Cates R (1976) Toward a general theory of plant antiherbivore chemistry. Rec Adv Phytochem 10:168–213
Sammarco PW (1980) Diameda and its relationship to coral spat mortality: grazing, competition, and biological disturbance. J Exp Mar Biol Ecol 45:245–272
Sammarco PW, Leviton JS, Ogden JC (1974) Grazing and control of reef community structure by Diadema antillarum (Philippi) (Echinodermata: Echinoidea): a preliminary study. J Mar Res 32:47–53
Sieburth J, Conover JT (1965) Sargassum tannin, an antibiotic which retards fouling. Nature 208:52–53
Steinberg PD (1984) Algal chemical defense against herbivores: allocation of phenolic compounds in the kelp Alaria marginata. Science 223:405–407
Steinberg PD (submitted) Feeding preferences of Tegula funebralis (Gastropoda) on marine brown algae: effects of, phenolic compounds, nitrogen content, and algal toughness. Ecology
Steneck RS (1982) A limpet-coralline alga association: adaptations and defenses between a selective herbivore and its prey. Ecology 63:507–522
Steneck RS (1983) Escalating herbivory and resulting adaptive trends in calcareous algal crusts. Paleobiology 9:44–61
Steneck RS, Watling L (1982) Feeding capabilities and limitations of herbivorous, molluscs: a functional group approach. Mar Biol 68:299–319
Steneck RS, Adey WH (1976) The role of environment in control of morphology in Lithophyllum congestum, a Caribbean algal ridge builder. Bot Mar 19:197–215
Stephenson W, Searles RB (1960) Experimental studies on the ecology of intertidal environments at Heron Island, Australia. Aust J Mar Freshw Res 11:241–267
Sun H, Fenical W (1979) Riphocephenal and Riphocephalin, novel linear sesquiterpenoids from the tropical green alga Rhipocephalus phoenix. Tetrahedron Lett 1979(8):685–688
Sun H, Paul VJ, Fenical, W (1983) Avrainvilleol, a brominated diphenylmethane derivative with feeding deterrent properties from the tropical green algae Avrainvillea longicaulis. Phytochemistry 22:743–745
Targett NM, Mitsui A (1979) Toxicity of subtropical marine algae using fish mortality and red blood cell hemolysis for bioassays. J Phycol 15:181–185
van den Hoek C, Breeman AM, Bak RPM, van Buurt G (1978) The distribution of algae, corals, and gorgonians in relation to depth, light attenuation, water movement, and grazing pressure in the fringing coral reef of Curacao, Netherlands Antilles. Aquat Bot 5:1–46
Vest SE, Dawes CJ, Romeo JT (1983) Distribution of caulerpin and caulerpicin in eight species of the green algae Caulerpa (Caulerpales). Bot. Mar 26:313–316
Wanders JBC (1977) The role of benthic algae the shallow reef of Curacao, (Netherlands Antilles) III: The significance of grazing. Aquat Bot 3:357–390
Zapata O, McMillan C (1979) Phenolic acids in seagrasses. Aquat Bot 7:307–317
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Hay, M.E. Predictable spatial escapes from herbivory: how do these affect the evolution of herbivore resistance in tropical marine communities?. Oecologia 64, 396–407 (1984). https://doi.org/10.1007/BF00379139
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00379139