Summary
Polyphloroglucinol phenolics are the best known example of chemical deterrents against herbivores in temperate marine systems. However, most of the research on these compounds has been done in North America, where phenolic levels in algae are often low. I show here that algae in the Orders Fucales and Laminariales in temperate Australia and New Zealand typically contain very high levels of polyphenolics-much higher than species in these orders in North America. The median value for the distribution of mean phenolic levels for 25 North American species is 1.33% total phenolics (dry wt.); for 37 Australasian species, the median is 6.20%. Significant spatial, temporal, and intraplant variation in phenolic content occurs in a number of species in Australasia, but this does not significantly alter my major conclusion. Phenolic levels in drift algae (an important food source for some herbivores) detached for up to two weeks are also not significantly different from living, attached plants. Many species in the Fucales in Australasia also contain non-polyphenolic secondary metabolites that are not found in North American species. Thus herbivores in Australasia face greater amounts, and a greater range,of putative chemical defenses in brown algae than do herbivores in similar systems in North America. Any general theory for the evolution of marine plant/herbivore interactions must take into account such broad-scale biogeographical (and taxonomic) patterns.
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References
Altena IA van (1987) Terpenoids from the brown alga Cystophora moniliformis. Aust J Chem 41:49–56
Anderson RJ, Velimirov B (1982) An experimental investigation of the palatability of kelp bed algae to the sea urchin Parechinus angulosus. Mar Ecol (PSZNI) 3:357–373
Andrew NL, Stocker LJ (1986) Dispersion and phagokinesis in the echinoid Evechinus chloroticus (Val.). J Exp Mar Biol Ecol 100:11–23
Ayling AM (1981) The role of biological disturbance in temperate subtidal encrusting communities. Ecology 62:830–847
Bakus GJ (1969) Energetics and feeding in shallow marine waters. Int Rev Gen Exp Zoology 4:275–369
Bold HC, Wynne MJ (1981) Introduction to the algae. Prentice Hall, Englewood Cliffs, NJ (2nd ed)
Choat JH (1982) Fish feeding in temperate waters. Ann Rev Ecol Syst 13:423–449
Choat JH, Schiel DR (1982) Patterns of distribution and abundance of large brown algae and invertebrate herbivores in subtidal regions of northern New Zealand. J Exp Mar Biol Ecol 60:129–162
Coley P, Bryant JP, Chapin III, FS (1985) Resource availability and plant anti-herbivore defense. Science 230:889–895
Conover JT, Sieburth JMcN (1964) Effects of Sargassum distribution on its epibiota and antibacterial activity. Botanica Marina 6:147–157
Dakin WJ (1980) Australian seashores. Angus and Robertson, Sydney, Australia
Dayton PK (1985) Ecology of kelp communities. Ann Rev Ecol Syst 16:215–245
Dodson JR, Westoby M (eds) (1985) Are Australian ecosystems different? Ecol Soc Aust Inc and Blackwell Scientific, Carlton, Australia
Druehl LD (1970) The pattern of Laminariales distribution in the northeast Pacific. Phycologia 9:237–247
Estes JA, Steinberg PD (1988) Predation, herbivory and kelp evolution. Paleobiology 14:19–36
Faulkner DJ (1984) Marine natural products: metabolites of marine algae and herbivorous marine mollusks. Nat Prod Rep 1:251–280
Faulkner DJ (1986) Marine natural products. Nat Prod Rep 3:1–33
Fceny PP (1976) Plant apparency and chemical defenses. Red Adv Phytochem 10:1–42
Fenical W (1980) Distributional and taxonomic features of toxinproducing marine algae. In: Abbott IA, Foster MS, Eklund LF (eds) Pacific seaweed aquaculture. California Sea Grant College Program, Institute of Marine Resources, University of California, La Jolla, Ca. USA, pp 144–151
Fletcher WJ (1987) Interactions among subtidal Australian sea urchins, gastropods, and algae: effects of experimental removals. Ecol Monogr 57:89–109
Fox LR (1981) Defense and dynamics in plant-herbivore systems. Am Zool 21:853–864
Futuyma DJ, Slatkin M (1983) Epilogue: the study of coevolution. In: Futuyma DJ, Slatkin M (eds) Coevolution, Sinauer, Sunderland, Mass. pp 459–464
Gaines SD, Lubchenco J (1982) A unified approach to marine plant-herbivore interactions. II. Biogeography. Ann Rev Ecol Syst 13:111–138
Geiselman JA (1980) Ecology of chemical defenses of algae against the herbivorous snail Littorina littorea, in the New England rocky intertidal community. Ph.D. Disertation, M.I.T., Cambridge, Mass
Geiselman JA, McConnell OJ (1981) Polyphenols in the brown algae Fucus vesiculosus and Ascophyllum nodosum: chemical defenses against the herbivorous snail Littorina littorea. J Chem Ecol 7:1115–1133
Gerwick WH, Fenical W (1981) Icthyotoxic and cytotoxic metabolites of the brown alga, Stypopodium zonale. J Org Chem 46:22–27
Gregson RP, Kazlauskas R, Murphy PT, Wells RJ (1982) New metabolites from the brown alga Csytophora torulosa. Aust J Chem 30:2527–2532
Harrold C, Reed D (1987) Food availability, sea urchin grazing, and kelp forest community structure. Ecology 66:1160–1169
Hawkins SJ, Hartnoll RG (1983) Grazing of intertidal algae by marine invertebrates. Ocean Mar Biol Ann Rev 21:195–282
Hay ME, Fenical W, Gustafason K (1987a) Chemical defense against diverse coral-reef herbivores. Ecology 68:1581–1592
Hay ME, Duffy JE, Pfister CA, Fenical W (1987b) Chemical defense against different marine herbivores: are amphipods insect equivalents? Ecology 68:1567–1580
Johnson CR, Mann KH (1986) The importance of plant defense abilities to the structure of seaweed communities: the kelp Laminaria longicruis de la Pylaie survives grazing by the snail Lacuna vincta (Montagu) at high population densities. J Exp Mar Biol Ecol 97:231–267
Katayama T (1951) Tannins of seaweeds. J Chem Soc Japan, Ind Chem Section 54:603–604
Kazlauskas R, Murphy PT, Wells RJ (1978) Two derivatives of farnesylacetone from the brown alga Cystophora moniliformis. Experientia 34:156–157
Kazlauskas R, Mulder J, Murphy PT, Wells RJ (1980) New metabolites from the brown alga Caulocystis cephalornithos. Aust J Chem 33:2097–2101
Kazlauskas R, King L, Murphy PT, Warren RG, Wells RJ (1981) New metabolites from the brown algal genus Cystophora. Aust J Chem 34:439–447
Kazlauskas R, Murphy PT, Wells RJ, Gregson RP (1982) Secondary metabolites from the Australian brown alga Acrocarpia paniculata. Aust J Chem 35:165–173
Kennelly SJ (1987) Physical disturbances in an Australian kelp community. I. Temporal effects. Mar Ecol Prog Ser 40:45–53
Kirkman H (1984) Standing stock and production of Ecklonia radiata. J Exp Mar Biol Ecol 76:119–130
Lamb IM, Zimmerman MH (1983) Marine vegetation of Cape Ann, Essex County, Massachusetts. Rhodora 66:217–254
Lawrence J (1975) On the relationship between marine plants and sea urchins. Ocean Mar Biol Ann Rev 13:213–286
Lindauer VW, Chapman VJ, Aiken M (1961) The marine algae of New Zealand. II. Phaeophyceae. Nova Hedwigia 3:129–350
Lubchenco J, Gaines SD (1981) A unified approach to marine plant-herbivore interactions. I. Populations and communities. Ann Rev Ecol Syst 12:405–437
Morrow PA (1987) Review of; Are Australian ecosystems different? Ecol 68:455–456
Nizamuddin M (1970) Phytogeography of the Fucales and their scasonal growth. Botanica Marina 13:131–139
ortega S (1986) Fish predation on gastropods on the Pacific Coast of Costa Rica. J Exp Mar Biol Ecol 97:181–192
Paul VJ (1987) Feeding deterrent effects of algal natural products. Bull Mar Sci 41:514–522
Paul VJ, Fenical W (1986) Chemical defense in tropical green algae, Order Caulerpales. Mar Ecol Prog-Ser 34:157–169
Ragan MA, Glombitza K-W (1986) Phlorotannins, brown algal polyphenols. Prog Phycol Res 4:129–241
Ragan MA, Jensen A (1977) Quantitative studies on brown algal polyphenols. I. Estimation of absolute polyphenol content of Ascophyllum nodosum (L.) and Fucus vesiculosus (L.) J Exp Mar Biol Ecol 34:245–258
Ravi BN, Murphy PT, Lidgard RO, Warren RG, Wells RJ (1982) C18 metabolites of the brown alga Cystophora moniliformis. Aust J Chem 35:171–182
Rhoades DF (1979) Evolution of plant chemical defenses against herbivores. In: Rosenthal GA, Janzen DH (ed) Herbivores, Academic Press, N.Y., pp 4–54
Ricketts EF, Calvin J, Hedgepeth JW (1968) Between Pacific tides. Stanford University Press, Stanford, California, Fourth edition
Schiel DR, Foster MS (1986) The structure of subtidal algal stands in temperate waters. Ocean Mar Biol Ann Rev 24:265–308
Shepherd S, Womersley HBS (1970) The sublittoral ecology of West Island, South Australia. I. Environmental features and the algal ecology. Trans R Soc S Aust 94:105–137
Steinberg PD (1984) Algal chemical defense against herbivores; allocation of phenolic compounds in the kelp Alaria marginata. Science 223:405–407
Steinberg PD (1985) Feeding preferences of Tegula funebralis and chemical defenses in marine brown algae. Ecol Monogr 55:333–349
Steinberg PD (1986) Chemical defenses and the susceptibility of tropical marine algae to herbivores. Oecologia 69:628–630
Steinberg PD (1988) The effects of quantitative and qualitative variation in phenolic compounds on feeding in three species of marine invertebrate herbivores. J Exp Mar Biol Ecol 120:221–237
Steneck RS (1986) The ecology of coralline algal crusts: convergent patterns and adaptive strategies. Ann Rev Ecol Syst 17:273–304
Stephenson TA, Stephenson A (1972) Life between tidemarks on rocky shores. W.H. Freeman and Co., San Francisco
Swain T, Hillis WE (1959) The phenolic constituents of Prunus domesticus. I. The quantitative analysis of phenolic constituents. J Sci Food Agr 10:63–68
Underwood AJ, Scanes P, Kennelly SJ, Fletcher WJ (1985) Distribution and abundance of sublittoral biological communities. Final Report Coastal Commission NSW
Van Alstyne KL (1988) Herbivore grazing increases polyphenolic defenses in the intertidal brown alga Fucus distichus. Ecology 69:655–663
Vermeij GJ (1978) Biogeography and adaptation. Harvard Press, Cambridge, Mass
Womersley HBS (1964) The morphology and taxonomy of Cystophora and related genera. Aust J Bot 12:53–110
Womersley HBS (1967) A critical survey of the marine algae of southern Australia. II. Phaeophyta. Aust J Bot 15:189–270
Womersley HBS (1981a) Marine ecology and zonation of temperate coasts. In: Clayton MN, King RJ (eds) Marine Botany: an Australasian perspective, Longman, Areshire, pp 212–239
Womersley HBS (1981b) Biogeography of Australasian marine macroalgae. In: Clayton MN, King RJ (eds) Marine Botany: an Australasian perspective, Longman, Areshire, pp 292–307
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Steinberg, P.D. Biogeographical variation in brown algal polyphenolics and other secondary metabolites: comparison between temperate Australasia and North America. Oecologia 78, 373–382 (1989). https://doi.org/10.1007/BF00379112
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DOI: https://doi.org/10.1007/BF00379112