Abstract
The yeast populations on 9 species of seaweeds and in seawater were estimated by cultural methods over a 16-month period in Narragansett Bay, Rhode Island (USA). Maximal numbers occurred on rhodophytes and a chlorophyte, while the lower numbers on phaeophytes were attributed to the release of inhibitory polyphenolic materials. All divisions of algae showed a similar seasonal variation in yeast populations, correlated with trends in solar radiation and water temperature which would affect both the host and its microflora. The exposure of intertidal algae to unseasonable air temperatures apparently has a detectable effect on their microflora. The population changes in the water surrounding the seaweeds paralleled those on the plants. Only colorless yeasts of the genus Candida were observed, except for brief occurrences of the pink yeast Rhodotorula in late spring, when it accounted for 3 to 35% of the yeast community. Ninety five percent of the 362 representative isolates were strains of Candida. The published properties of the 84 species accepted in the genus Candida were compared with those of the marine isolates using numerical analysis. There were 7 groups: 1 solely of named species, 3 small groups with both named species and marine isolates, and 3 large groups with only one or two named species that contained 75% of the seaweed and sea-water isolates. An apparent successional sequence for three groups may be due to differences in their biochemical activity. The same three groups were preferentially enriched by 5 of the algal species. The role of this persistent yeast population as a reservoir of inshore yeasts is discussed.
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Literature Cited
Anonymous: Climatological data. National Summary. Vols 20–21. Washington, D.C. 20402: Environmental Science Services Admin., Environmental Data Service, U.S. Dept. of Commerce 1969–1970
Bahnweg, G. and F.K. Sparrow, Jr.: Marine fungi: occurrence in the southern Indian Ocean. Antarctic J. U.S. 6, p. 155 (1971)
Baruah, J.N., Y. Alroy and R.I. Mateles: Incorporation of liquid hydrocarbons into agar media. Appl. Microbiol. 15, p. 961 (1967)
Bidwell, R.G.S.: Photosynthesis and metabolism of marine algae. II. A survey of rates and products of photosynthesis in C14O2. Can. J. Bot. 36, 337–349 (1958)
— Photosynthesis and metabolism in marine algae. VII. Products of photosynthesis in fronds of Fucus vesiculosis and their use in respiration. Can. J. Bot. 45, 1557–1565 (1967)
—, J.S. Craigie and G. Krotkov: Biosynthesis of radioactive mannitol from C14O2 by F. vesiculosus. Science, Washington D.C. 128, p. 776 (1958)
Bunt, J.S.: The importance of bacteria and other microorganisms in the sea-water at Macquarie Island. Aust. J. mar. Freshwat. Res. 6, 60–65 (1955)
Capriotti, A.: Yeasts of the Miami, Florida, area. III. From seawater, marine animals and decaying materials. Arch. Mikrobiol. 42, 407–414 (1962)
Chesters, C.G.C. and A.T. Bull: The enzymic degradation of laminarin. I. The distribution of laminarinase among microorganisms. Biochem. J. 86, 28–31 (1963)
Colwell, R.R.: A study of features used in the diagnosis of Pseudomonas aeruginosa. J. gen. Microbiol. 37, 181–194 (1964)
— and J. Liston: Taxonomic analysis with electronic computer of some Xanthomonas and Pseudomonas species. J. Bact. 82, 913–919 (1961)
—, M.L. Moffett and M.D. Sutton: Computer analysis of relationships among phytopathogenic bacteria. Phytopathology 58, 1207–1215 (1968)
Conover, J.T. and J. McN. Sieburth: Effect of Sargassum distribution on its epibiota and antibacterial activity. Botanica mar. 6, 147–157 (1964)
Fell, J.W.: Distribution of Antarctic marine fungi. Antarctic J. U.S. 3, p. 157 (1968)
— and S.A. Meyer: Systematics of yeast species in the Candida parapsilosis group. Mycopath. Mycol. appl. 32, 177–193 (1967)
— and N. Van Uden: Yeasts in marine environments. In: Symposium on marine microbiology, pp 329–340. Ed. by C.H. Oppenheimer. Springfield, Illinois: Thomas 1963
Hagen, P.-O. and A.H. Rose: A psychrophilic Cryptococcus. Can. J. Microbiol. 7, 288–294 (1961)
Hanic, L.A. and J.S. Craigie: Studies on the algal cuticle. J. Phycol. 5, 89–102 (1969)
Haug, A. and A. Jensen: Seasonal variations in the chemical composition of Alaria esculenta, Laminaria saccharina, Laminaria hyperborea and Laminaria digitata from Northern Norway. Rep. Norw. Inst. Seaweed Res. 4, 1–4 (1954)
Hoppe, H.-G.: Untersuchungen zur Ökologie der Hefen im Bereich der westlichen Ostsee. Kieler Meeresforsch. 28, 54–77 (1972a)
— Taxonomische Untersuchungen an Hefen aus der westlichen Ostsee. Kieler Meeresforsch. 28, 219–226 (1972b)
Jayasankar, N.P. and J.V. Bhat: Isolation and properties of catechol-cleaving yeasts from coir rets. Antonie van Leeuwenhoek 32, 125–134 (1966)
Jensen, A. and A. Haug: Geographical and seasonal variation in the chemical composition of Laminaria hyperborea and Laminaria digitata from the Norwegian coast. Rep. Norw. Inst. Seaweed Res. 14, 1–8 (1956)
Khailov, K.M. and Z.P. Burlakova: Release of dissolved organic matter by marine seaweeds and distribution of their total organic production to inshore communities. Limnol. Oceanogr. 14, 521–527 (1969)
Lockhart, W.R. and J. Liston (Eds.): Methods for numerical taxonomy, 62 pp. Bethesda, Md.: American Society for Microbiology 1970
Lodder, J. (Ed.): The yeasts, a taxonomic study, 2nd ed. 1385 pp. Amsterdam: North Holland Publishing Co. 1970
Moebus, K. and K.M. Johnson: Exudation of dissolved organic carbon by brown algae. Mar. Biol. 26, 117–125 (1974)
—— and J. McN. Sieburth: Rehydration of desiccated intertidal brown algae: release of dissolved organic carbon and water uptake. Mar. Biol. 26, 127–134 (1974)
Morris, E.O.: Yeasts of marine origin. Oceanogr. mar. Biol. A. Rev. 6, 201–230 (1968)
Nadson, G. und G. Burgwitz: Hefen des Nördlichen Eismeeres. Dokl. Akad. Nauk SSSR 4, 103–110 (1931)
—, A.G. Konokotina and G.K. Burgwitz: Marine algae as a source for the cultivation of yeasts, fats and alcohol. [In russ.] Izv. glav. bot. Sada RSFSR 22, 52–56 (1923)
Percival, E. and R.H. McDowell: Chemistry and enzymology of marine algal polysaccharides, 219 pp. London: Academic Press 1967
Roth, F.J., Jr., D.G. Ahearn, J.W. Fell, S.P. Meyers and S.A. Meyer: Ecology and taxonomy of yeasts isolated from various marine substrates. Limnol. Oceanogr. 7, 178–185 (1962)
Seshadri, R.: Seaweeds as a habitat for yeasts, 127 pp. Ph. D. Thesis, University of Rhode Island 1972
— and J.McN. Sieburth: Cultural estimation of yeasts on seaweeds. Appl. Microbiol. 22, 507–512 (1971)
Sieburth, J.McN.: Seasonal selection of estuarine bacteria by water temperature. J. exp. mar. Biol. Ecol. 1, 98–121 (1967)
— Studies on algal substances in the sea. III. The production of extracellular organic matter by littoral marine algae. J. exp. mar. Biol. Ecol. 3, 290–309 (1969)
—, R.D. Brooks, R.V. Gessner, C.D. Thomas and J.L. Tootle: Microbial colonization of marine plant surfaces as observed by scanning electron microscopy. In: Effect of the ocean environment on microbial activities, pp 418–432. Ed. by R.R. Colwell and R.Y. Morita. Baltimore, Md.: University Park Press 1974
— and J.T. Conover: Sargassum tannin, an antibiotic which retards fouling. Nature, Lond. 208, 52–53 (1965)
Sokal, R.R. and P.H.A. Sneath: Principles of numerical taxonomy,350 pp. San Francisco: W.H. Freeman Co. 1963
Suehiro, S.: Studies on yeasts developing in putrefied marine algae. Sci. Bull. Fac. Agric. Kyushu Univ. 17, 443–449 (1960)
— Studies on the marine yeasts. II. Yeasts isolated from Thalassiosira subtilis (marine diatom) decayed in flasks. Sci. Bull. Fac. Agric. Kyushu Univ 20, 101–105 (1962)
— and Y. Tomiyasu: Studies on the marine yeasts. V. Yeasts isolated from seaweeds. J. Pac. Agric. Kyushu Univ. 12, 163–169 (1962)
——: Studies on the marine yeasts. VII. On the utilization of plankton and seaweeds by yeasts. J. Fac. Agric. Kyushu Univ. 13, 227–235 (1964)
——: Studies on the marine yeasts. IV. Yeasts isolated from marine plankton. J. Fac. Agric. Kyushu Univ. 12, 155–161 (1962)
Tomiyasu, Y. and B. Zenitani: The production of yeasts from seaweed. I. Two species of Candida. J. agric. Chem. Soc. Japan 25, 406–410 (1951a)
——: The production of yeast from seaweed. II. The method of producing yeast from seaweed. J. agric. Chem. Soc. Japan 25, 479–483 (1951b)
Tootle, J.L.: The fouling microflora of intertidal seaweeds: seasonal, species and cuticular regulation, 65 pp. M.S. Thesis, University of Rhode Island 1974
Van der Walt, J.P.: Criteria and methods used in classification. In: The yeasts, pp 34–113. Ed. by J. Lodder. Amsterdam: North Holland Publishing Co. 1970
Van Uden, N. and H. Buckley: Candida Berkhout. In: The yeasts, pp 893–1087. Ed. by J. Lodder. Amsterdam: North Holland Publishing Co. 1970
— and R. Castelo-Branco: Distribution and population densities of yeast species in Pacific water, air, animals and kelp off southern California. Limnol. Oceanogr. 8, 323–329 (1963)
— and J.W. Fell: Marine yeasts. In: Advances in microbiology of the sea, pp 167–201. Ed. by M.R. Droop and E.J.F. Wood. New York and London: Academic Press 1968
Weast, R.C. and S.M. Selby (Eds.): Handbook of chemistry and physics, 1937 pp. 48th ed. Cleveland, Ohio: CRC Press 1967
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Communicated by O. Kinne, Hamburg
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Seshadri, R., Sieburth, J.M. Seaweeds as a reservoir of Candida yeasts in inshore waters. Marine Biology 30, 105–117 (1975). https://doi.org/10.1007/BF00391585
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DOI: https://doi.org/10.1007/BF00391585