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Hydrobiologia

, Volume 434, Issue 1–3, pp 145–150 | Cite as

Causative microorganisms for musty odor occurrence in the eutrophic Lake Kasumigaura

  • Norio Sugiura
  • Kazunori Nakano
Article

Abstract

The musty odor phenomenon in Lake Kasumigaura, Japan (a eutrophic lake that is used for various purposes, including water supply source) was examined. The causative microorganisms responsible for the production of the odor compounds, geosmin and/or 2-methylisoborneol (MIB), and the odor release mechanism were studied in vitro and in situ. The numbers of the filamentous P. tenue in the lake water column were closely correlated with the concentration of MIB, but not geosmin. The isolated monoxenic P. tenue in culture produced only MIB. Geosmin concentration was well correlated with the number of actinomycetes in the sediment. Forty isolates of actinomycetes from the sediment around the water supply intake tower produced both geosmin and MIB in culture. Furthermore, the average ratio of production of geosmin to MIB was 1.40–1.0. Actinomycetes in the sediment played an important role in geosmin production. We concluded that geosmin and MIB from actinomycetes in the sediment, and MIB from P. tenue in the water column were jointly responsible for the severe musty odor occurrence of the waters supply source at Lake Kasumigaura.

actinomycetes geosmin 2-methylisoborneol musty odor Phormidium tenue 

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References

  1. Gerber, N. N., 1968. A volatile metabolite of actinomycetes. 2-Methyliso-borneol. J. Antibiot. 22: 508–509.Google Scholar
  2. Gerber, N. N., 1969. Geosmin from microorganisms is trans-1,10-dimethyl-trans-9-decalol. Tetrahedron Lett. 25: 2972–2974.Google Scholar
  3. Glaze, W. H., R. Schep, W. Chauncey, E. C. Ruth, J. J. Zarnoch, E. M. Aieta, C. H. Tate & M. J. McGuuire, 1990. Evaluating oxidants for the removal of model taste and odor compounds from a municipal water supply. J. Am. Wat. Works Assoc. 82: 79–86.Google Scholar
  4. Hendricks, A. C., & J. K. G. Silvey, 1973. Nutrient ratio variation in reservoir sediments. J. Wat. Pollut. Control Fed. 45: 490–497.Google Scholar
  5. Izaguirre, G., C. J. Hwang, S. W. Krasner & M. J. McGuire, 1982. Geosmin and 2-methylisoborneol from cyanobacteria in three water supply systms. Appl. Envir. Microbiol. 43: 708–714.Google Scholar
  6. Lalezary, S., M. Pirbazari & M. J. McGuire, 1986. Evaluating activated carbon for removing low concentrations of tastes and odor producing organics. J. am. Wat. Works Assoc. 78: 76–82.Google Scholar
  7. Masada, Y., & T. Inoue, 1973. Odorous metabolite of blue green alga Shizothrix muelleri (Nageli) collected in southern basin of Lake Biwa. Identification of geosmin. Chem. Pharm. Bull. 21: 2342–2343.Google Scholar
  8. Medsker, L. L., D. Jenkins & J. F. Thomas, 1968. An earthysmelling compound associated with blue-green alga and actinomycetes. Envir. Sci. Technol. 2: 462–464.Google Scholar
  9. Persson, P. E., 1983. Off-flavours in aquatic ecosystem-an introduction. Water Sci. Technol. 15: 1–11.Google Scholar
  10. Safferman, R. S., A. A. Rosen & C. I. Mashini, 1967. Earthy smelling substance from blue-green alga. Envir. Sci. Technol. 1: 429–430.Google Scholar
  11. Sugiura, N., O. Yagi & R. Sudo, 1983. Effect of various environmental factors in musty odor production by Streptomyces. Jap. J. Wat. Poll. Res. 6: 77–86.Google Scholar
  12. Sugiura, N., O. Yagi & R. Sudo, 1984. Effect of algae on musty odor production by actinomycetes. Jpn. J. Wat. Poll. Res. 7: 1–9.Google Scholar
  13. Sugiura, N., O. Yagi & R. Sudo, 1986. Musty odor blue green algae Phormidium tenue in Lake Kasumigaura. Envir. Technol. Lett. 7: 77–86.Google Scholar
  14. Sugiura, N., O. Yagi & R. Sudo, 1987. Effect of carbohydrate in the sediment on the musty odor production by actinomycetes. Envir. Technol. Lett. 8: 95–103.Google Scholar
  15. Sugiura, N., Y. Inamori, Y. Hosaka & R. Sudo, 1994. Algae enhancing musty odor production by actinomycetes in Lake Kasumigaura. Hydrobiologia 288: 57–64.Google Scholar
  16. Sugiura, N., O. Nishimura, Y. Kani, Y. Inamori & R. Sudo, 1997. Evaluation of activated carbons for removal of musty odor compounds in the presence of competitive organics. Envir. Technol. 18: 455–460.Google Scholar
  17. Sugiura, N., N. Iwami, Y. Inamori, O. Nishimura & R. Sudo, 1998. Significance of attached cyanobacteria relevant to the occurrence of musty odor in Lake Kasumigaura. Wat. Res. 32: 3549–3554.Google Scholar
  18. Tabachek, J. L. & M. J. Yurkowski, 1976. Isolation and identi-fication of blue green algae producing musty odor metabolites, geosmin and 2-methylisoborneol in saline lake in Manitoba. J. Fish. Res. Bd Can. 33: 25–35.Google Scholar
  19. Vallentyne, J. R. & R. G. S. Bidwell, 1956. The relation between sedimentary chlorophyl and free sugars in lake muds. Ecology. 37: 495–500.Google Scholar
  20. Vallentyne, J. R., 1957. The molecular nature of organic matter in lakes and oceans with lesser reference to sewage and terrestrial soils. J. Fish Res. Bd Can. 14: 33–82.Google Scholar
  21. Wood, S., S. T. William & W. R. White, 1983. Microbes as a source of earthy flavours in potable water. A review. Int. Biodeterior. Bull. 19: 83–97.Google Scholar
  22. Yagi, O., M. Kajino, U. Matsuo, K. Ashitani, T. Kita & T. Nakamura, 1983. Odor problem in Lake Biwa. Wat. Sci. Technol. 15: 311–321.Google Scholar
  23. Yagi, M., N. Sugiura & R. Sudo, 1985. Chemical and biological factors on the musty odor occurrence in Lake Kasumigaura. J. Jpn Limnol. 46: 32–40.Google Scholar
  24. Yagi, O., N. Sugiura & R. Sudo, 1987. Chemical and physical factors in the production of musty odor by Streptomyces spp. isolated from Lake Kasumigaura. Agric. Biol. Chem. 51: 2081–2088.Google Scholar

Copyright information

© Kluwer Academic Publishers 2000

Authors and Affiliations

  • Norio Sugiura
  • Kazunori Nakano

There are no affiliations available

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