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The Korean Society of Phycology (한국조류학회(藻類))
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Morphology and Ecology of Peridinium bipes var. occultatum Lindem.(Dinophyceae) Forming Freshwater Red Tides in Korean Dam Reservoirs

  • Lee, Jung-Joon (Department of Biology Education, Daegu University) ;
  • Jang, Sung-Hyun (Department of Biology Education, Daegu University) ;
  • Lee, Joo-Heon (Department of Environmental Engineering, Daegu University) ;
  • Lee, Jung-Ho (Department of Biology Education, Daegu University)
  • Published : 2006.12.31
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Abstract

This study was performed to understand the morphological and ecological characteristics of Peridinium bipes var. occultatum Lindem., which is the organism responsible for freshwater red tides in Sangsa dam and Miryang dam reservoirs. The samples were collected from April to July 2004 when the freshwater red tides occurred. In the study, we were able to differentiate P. bipes var. occultatum from P. bipes, a closely related species, by its smaller antapical horn size. In Miryang dam reservoir the red tide occurred only within the area of the upstream, but it was well developed in all of the water area in Sangsa dam reservoir. In 2004 average LTSI (Lake Trophic Status Index; Yang and Dickman, 1993) of Miryang dam reservoir was 3.53 of mesotrophic state and Sangsa dam reservoir was 8.59 of eutrophic state. It was determined, through culture experiments under various conditions that vitamins, trace elements, phosphorus and nitrogen were important contributing factors to the growth of P. bipes var. occultatum. A rapid toxic effect of P. bipes var. occultatum on aquatic organisms such of Daphnia magna and Oryzias latipes was not identified in this study.

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References

  1. Ahn T.S. 1990. The microbial degradations in the sediment of red tide area of lake Soyang. Korean J. Limnol. 23: 15-22
  2. Anderson D.M. and Wall D. 1978. Potential importance of benthic cysts of Gonyaulax tamarensis and G. excavata in initiating toxic dinoflagellate blooms. J. Phycol. 20: 418-425. Oryzias latipes https://doi.org/10.1111/j.0022-3646.1984.00418.x
  3. Brettum P. 1996. Changes in the volume and composition of phytoplankton after experimental acidification of a humic lake. Environmental International 22: 619-628 https://doi.org/10.1016/0160-4120(96)00037-2
  4. Bruno S.F. and McLaughlin J.J.A. 1977. The nutrition of the freshwater dinoflagellate Ceratium hirundinella. J. of Protozoology 24: 548-553 https://doi.org/10.1111/j.1550-7408.1977.tb01012.x
  5. Champman A.D. and Pfiester L.A. 1995. The effects of temperature, irradiance, and nitrogen of the encystment and growth of the freshwater dinoflagellates Peridinium cinctum and P. willei in culture (Dinophyceae). J. of Phycol. 31: 355-359 https://doi.org/10.1111/j.0022-3646.1995.00355.x
  6. Falconer I.R. 1993. Algae Toxins in Seafood and Drinking Water. Academic Press, San Diego
  7. Fukuju S., Takahashi T. and Kawayoke T. 1998. Statistical analysis of freshwater red tide in japanese reservoirs. Wat. Sci. Tech. 37: 203-210
  8. Holl K. 1928. okologie der Peridineen. Pflanzenforschung 11: 1-105
  9. Holt J.R. and Pfiester L.A. 1981. A survey of auxotrophy in five freshwater dinoflagellates (Pyrrhophyta). J. of Phycol. 17:415-416 https://doi.org/10.1111/j.0022-3646.1981.00415.x
  10. Horne A.J. and Goldman C.R. 1994. Limnology. McGraw-Hill Inc., New-York
  11. Kadis S. and Clegler A. 1971. Microbial Toxins, Volume VII: Algal and Fungal Toxins. Acanemic press, New-York and London
  12. Kang C.S., Lee J.Y., Kim M.W., Kim C.W. and Kim S.J. 1989. Dial variation of microorganisms in the red tide occurrence waters, Soyang dam reservoir. Proceeding of Symposium of the Korean Society of Limnology
  13. Ki J.S., Cho S.Y. and Han M.S. 2005a. Analysis of small-subunit rDNA sequences obtained from Korean Peridinium bipes f. occultatum (Dinophyceae). Algae 20: 25-30 https://doi.org/10.4490/ALGAE.2005.20.1.025
  14. Ki J.S., Cho S.Y. and Han M.S. 2005b. Morphological caracteristics of Peridinium bipes f. occultatum (Dinophyceae) isolated from three geographically segregated aquatic systems of Korea. Korean J. Limnol. 38: 1-7
  15. Kim B.C., Cho K.S. and Cho S.S. 1987. Vertical and horizontal distribution of phytoplankton (Dinophyceae) and environmental factors in lake Soyang. Proceeding of Symposium of the Korean Society of Limnology
  16. Korean Water Resources Corporation (KOWACO). 1997. A Study on Aquatic Ecosystem Changes in Dam Reservoir (3nd Year): Final Report (WRRI-ES-97-1)
  17. Korean Water Resources Corporation (KOWACO). 2003. The Toxicity of Freshwater Red Tide in Lake Chuam: Final Report
  18. Lee J.H. 1999. A review on red-tides and phytoplankton toxins in the coastal waters of Korea. Korean J. Environ. Biol. 17:217-232
  19. Ministry of Maritime Affairs and Fisheries (MOMAF). 2000. Ocean Environmental Superintendence. pp. 1-346
  20. Nakajima I., Oshima Y. and Yasumoto T. 1981. Toxicity of benthic dinoflagellates in Okinawa. Bull. Jpn Soc. Sci. Fish. 47:1029-1033 https://doi.org/10.2331/suisan.47.1029
  21. Nishibori N., Nishijima T., Onoda Y. and Hata Y. 1991. Effect of light intensity, temperature, pH, and nitrogenous nutrient on the growth of Peridinium bipes fo. occultatum. Nippon Suisan Gakkaishi 57: 1729-1735 https://doi.org/10.2331/suisan.57.1729
  22. Nozawa K. 1968. The effcts of Peridinium toxin on other algae. Bull. Miski Mar. Biol. Inst. Kyoto Univ. 12: 21-24
  23. Park H.D. and Hayashi H. 1992. Life cycle of Peridinium bipes f. occultatum (Dinophyceae) isolated from Lake Kizaki. J. Facul. Sci. Shinshu Univ. 27: 87-104
  24. Pascher A. 1990. Dinophyceae (Dinoflagellida). Gustav Fischer Verlag Jena Stuttgart, Germany
  25. Pestalozzi G.H. 1968. Das Phytoplankton des SuBwassers -Cryptophyceae, Chloromonadophyceae, Dinophyceae. Sttugart, Germany
  26. Pfiester L.A. 1975. Sexual reproduction of Peridinium cinctum f. ovoplanum (Dinophyceae). J. Phycol. 11: 259-265
  27. Pfiester L.A. 1976. Sexual reproduction of Peridinium willei (Dinophyceae). J. Phycol. 12: 234-238
  28. Pfiester L.A. 1977. Sexual reproduction of Peridinium gatunense (Dinophyceae). J. Phycol. 13: 92-95
  29. Pfiester L.A. and Anderson D.M. 1987. Dinoflagellate reproduction, In: The Biology of Dinoflagellates (Taylor F.J.R.).Blackwell Scientific. Oxford, UK
  30. Schoen S. 1988. Cell counting, In: Experimental Phycology a Laboratory Manual (Christopher S.L., David J.C. and Bruno P.K., des.). Cambridge University Press. London
  31. Somia I., Shin H.S., Lee Y.K., Kwon M.S. and Lee E.S. 1994. The present condition and control of freshwater red tide in lake Chungyunsa (I). Proceeding of Symposium of the Korean Society of Environmental Engineers Scientific.
  32. Sommer H. and Meyer K.F. 1937. Paralytic shellfish poisoning. Arch. Pathol. 24: 560-598
  33. Stosch H.A. 1969. Dinoflagellaten aus der Nordsee II. Helgolandinum subglobosum gen. et spec. nov. Helgol. Wiss. Meeresunters. 19: 569-577 https://doi.org/10.1007/BF01608816
  34. Taylor F.J.R. 1990. Phylum Dinoflagellata. In: Jones and Bartlett Series in Life Science: Handbook of Protoctista: The Structure, Cultivation, Habitats and Life History of the Eukaryotic Microorganisms and their Descendants Exclusive of Animals, Plants, and Fungi: A Guide to the Algae, Ciliates, Foraminifera, Sporozoa, Water Molds, Slime Molds and Other Protoctisis (ed. Margulis L.). Jones and Bartlett Publishers. Boston, MA
  35. Wu J.T. and Chou J.W. 1998. Dinoflagellate associations in Feitsui Reservoir, Taiwan. Bot. Bull. Acad. Sinica (Taipei) 39:137-145
  36. Yamada M., Ono Y. and Somiya I. 1998. Accumulation of freshwater red tide in a dam reservoir. Wat. Sci. Tech. 37: 203-210
  37. Yang J.R. and Dickman M. 1993. Diatoms as indicators of lake trophic status in central Ontario, Canada. Diatom Res. 8:179-193 https://doi.org/10.1080/0269249X.1993.9705249