Comparison of three methods for quantifying brown algal polyphenolic compounds
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Anderson, R.J., andVelimirov, B. 1982. An experimental investigation of the palatibility of kelp bed algae to the sea urchinParechinus angulosus Leske.P.S.Z.N.I. Mar. Ecol. 3:357–373.
Bernays, A.E., Cooper Driver, G., andBilgener, M. 1989. Herbivores and plant tannins.Adv. Ecol. Res. 19:263–302.
Boettcher, A.A., andTargett, N.M. 1993. Role of polyphenolic molecular size in reduction of assimilation efficiency inXiphister mucosus.Ecology 74:891–903.
Bollag, D.M., andEdelstein, S.J. 1991. Protein Methods. Wiley-Liss, New York 230 pp.
Carlson D.J., andCarlson, M.L. 1984. Reassessment of exudation by fucoid macroalgae,Limnol. Oceanogr. 29:1077–1087.
Conover, J.T., andSieburth, J.M. 1964. Effect ofSargassum distribution on its epibiota and antibacterial activity.Bot. Mar. 6:147–157.
Conover, J.T., andSieburth, J.M. 1966. Effects of tannins secreted from Phaeophyta on planktonic animal survival in tidepools.Proc. Int. Seaweed Symp. 5:99–100.
Folin, O., andCiocalteu, V. 1927. On tyrosine and tryptophane determinations in proteins.J. Biol. Chem. 73:627–650.
Folin, O., andDenis, W. 1912. On phosphotungstic-phosphomolybdic compounds as color reagents.J. Biol. Chem. 12:239–243.
Geiselman, J.A. 1980. Ecology of chemical defenses of algae against the herbiverous snail,Littorina littorea, in the New England rocky intertidal community. PhD dissertation. MIT/Woods Hole. 209 pp.
Geiselman, J.A., andMcConnell, O.J. 1981. Polyphenols in the brown algaeFucus vesiculosus andAscophyllum nodosum: Chemical defense against the herbivorous snailLittorina littorea.J. Chem. Ecol. 7:1115–1133.
Hagerman, A.E., andButler, L.G. 1989. Choosing appropriate methods and standards for assaying tannin.J. Chem. Ecol. 15:1795–1810.
Hagerman, A.E., andButler, L.G. 1991. Tannins and lignins, pp. 355–388,in G.A. Rosenthal and M.R. Berenbaum (eds.). Herbivores: Their Interactions with Secondary Plant Metabolites, 2E, Vol. 1; The Chemical Participants. Academic Press, New York.
Hatch, W.I., Tanner, C.E., Butler, N.M., andO'Brien, E.P. 1993. A micro-Folin-Denis method for the rapid quantification of phenolic compounds in marine plants and animals. Int. Soc. Chem. Ecol. (abstract). Tampa, Florida.
Ilvessalo, H., andTuomi, J. 1987. Nutrient availability and accumulation of phenolic compounds in the brown algaFucus vesiculosus.Mar. Biol. 101:115–119.
Johnson, C.R., andMann, K.H. 1986. The importance of plant defence abilities to the structure of subtidal seaweed communities: The kelpLaminaria longicruris de la Pylaie survives grazing by the snailLacuna vincta (Montagu) at high population densities.J. Exp. Mar. Biol. Ecol. 97:231–267.
McLachlan, J., andCraigie, J.S. 1966. Antialgal activity of some simple phenols.J. Phycol. 2:133–135.
Mole, S., andWaterman, P.G. 1987. A critical analysis of techniques for measuring tannins in ecological studies. II. Techniques for biochemically defining tannins.Oecologia 72:148–156.
Pfister, C.A. 1992. Costs of reproduction in an intertidal kelp: Patterns of allocation and life history consequences.Ecology 73:1586–1596.
Price, M.P., andButler, L.G. 1977. Rapid visual estimation and spectrophotometric determination of tannin content ofSorghum grain.J. Agric. Food Chem. 25:1268–1273.
Ragan, M.A., andGlombitza, K.W. 1986. Phlorotannins, brown algal polyphenols, pp. 129–241,in F.E. Round, and D.J. Chapman (eds.). Progress in Phycological Research, Vol. 4, Biopress, Bristol, England.
Sieburth, J.M. 1968. The influence of algal antibiosis on the ecology of marine microorganisms.Adv. Microbiol. Sea 1:63–94.
Steinberg, P.D. 1984. Algal chemical defenses against herbivores: Allocation of phenolic compounds in the kelpAlaria marginata.Science 223:405–407.
Steinberg, P.D. 1985. Feeding preferences ofTegula funebralis and chemical defenses of marine brown algae.Ecol. Monogr. 55:333–349.
Steinberg, P.D. 1986. Chemical defenses and the susceptibility of tropical brown algae to herbivores.Oecologia 69:628–630.
Steinberg, P.D. 1988. 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.
Steinberg, P.D. 1989. Biogeographical variation in brown algal polyphenolics and other secondary metabolites: Comparison between temperate Australasia and North America.Oecologia 78:374–383.
Steinberg, P.D., andVan Altena, I. 1992. Tolerance of marine invertebrate herbivores to brown algal phlorotannins in temperate Australasia.Ecol. Monogr. 62:189–222.
Targett, N.M., Coen, L.D., Boettcher, A.A., andTanner, C.E. 1992. Biogeographic comparisons of marine algal phenolics: evidence against a latitudinal trend.Oecologia 89:464–470.
Tugwell, S., andBranch, G.M. 1989. differential polyphenolic distribution among tissues in the kelpsEcklonia maxima, Laminaria pallida, andMacrocystis angustifolia in relation to plant-defence theory.J. Exp. Mar. Biol. Ecol. 129:219–230.
Tugwell, S., andBranch, G.M. 1992. Effects of gut surfactants on kelp polyphenol defenses.Ecology 73:205–215.
Van Alstyne, K.L. 1988. Herbivore grazing increases polyphenolic defenses in the brown algaFucus distichus.Ecology 69:655–663.
Van Alstyne, K.L. 1989. Adventitious branching as an herbivore-induced defense in the intertidal brown algaFucus distichus.Mar. Ecol. Prog. Ser. 56:169–176.
Van Alstyne, K.L., andPaul, V.J. 1990. The biogeography of polyphenolic compounds in marine macroalgae: Temperate brown algal defenses deter feeding by tropical herbivorous fishes.Oecologia 84:158–163.
Yates, J.L., andPeckol, P. 1993. Effects of nutrient availability and herbivory on polyphenolics in the seaweedFucus vesiculosus.Ecology 74:1757–1766.
Zar, J.H. 1984. Biostatistical Analysis. Prentice Hall, Englewood Cliffs, New Jersey. 718 pp.