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The Korean Society of Phycology (한국조류학회(藻類))
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Semiweekly Variation of Spring Population of a Mixotrophic Ciliate Myrionecta rubra (=Mesodinium rubrum) in Keum River Estuary, Korea

춘계 금강 하구에서 혼합영양 섬모류인 Myrionecta rubra (=Mesodinium rubrum) 개체군의 단주기 변동

  • Yih, Won-Ho (Department of Oceanography, Kunsan National University) ;
  • Myung, Geum-Og (Department of Oceanography, Kunsan National University) ;
  • Kim, Hyung-Seop (Kunsan Regional Maritime Affairs and Fisheries Office, MOMAF) ;
  • Jeong, Hae-Jin (School of Earth and Environmental Science, Seoul National University)
  • Published : 2005.09.01
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Abstract

Myrionecta rubra, a mixotrophic ciliate, is a cosmopolitan red tide species which is commonly found in neritic and estuarine waters. M. rubra had long been listed as an “nculturable protist”until 2 different laboratory strains were finally established in 2 research groups at the beginning of this century, enabling us to perform initiative investigation into various aspect of the live M. rubra strains (Gustafson et al. 2000; Yih et al. 2004b; Johnson and Stoecker 2005). Field sampling was carried out on high tide at 2 fixed stations around Kunsan Inner Harbor (St.1 near the Estuarine Weir and St.2 off Kunsan Ferry Station) every other day for 4 months from mid-February 2004 to understand detailed figure of the recurrent spring blooms of M. rubra following the onset of the water gates operation of the Keum River Estuarine Weir on August 1994. With its maximum abundance of 272 cells mL$^{-1}$ in St.1, fluctuation pattern of the M. rubra population at the 2 stations was strikingly similar. Notable growth of M. rubra population started on late April, to cause M. rubra red tides during one month from mid-May in which “xceptionally low salinity days”without its red tide were intermittently inserted. High abundance of M. rubra over 50 cells mL$^{-1}$ was recorded at samples with their water temperature and salinity higher than 15${^{\circ}C}$ and 4.0 psu, respectively. During pre-bloom period when salinity fluctuation is moderate and the water temperature is cooler than 15°C, Skeletonema costatum, a chain-forming centric diatom, was most dominant. Cyanobacterial species such as Aphanizomenon flos-aquae and Phormidium sp. replaced other dominant phytoplankters on the days with “xceptionally low salinity”even during the main blooming period of M. rubra. To summarize, M. rubra could form spring blooms in Keum River Estuary when the level of salinity fluctuation was more severe than that for the dominant diatom Skeletonema costatum and milder than that for the predominance by freshwater cyanobacteria. Therefore, optimal control of the scale and frequency of freshwater discharges might lead us to partially modify the fluctuation pattern of M. rubra populations as well as the period of spring blooms by M. rubra in Keum River Estuary. Sampling time interval of 2 days for the present study or daily sampling was concluded to be minimally required for the detailed exploration into the spring blooms by M. rubra populations in estuaries with weirs like Keum River Estuary.

Keywords

References

  1. 국립수산과학원, 2005. 한국의 적조. 국립수산과학원 홈페이지 : 주요기술정보편, 해양환경정보 란
  2. 김학균, 이삼근, 안경호, 윤성화, 이필용, 이창규, 조은섭, 김정배, 최희구, 김평중. 1998. 한국 연안의 적조(개정판). 국립수산진흥원. 292p
  3. 김형섭, 명금옥, 조수근, 이원호. 2004a. 광합성 섬모류 Mesodinium nubrum MR-MAL01의 응용성. (1) 이매패류 종묘생산을 위한 먹이생물 유용성. 한국양식학회지 17: 115-121
  4. 김형섭, 김영길, 양재삼, 이원호. 2004b. 곰소만과 금강하구역에서 광합성 섬모류 Mesodinium rubrum 개체군의 변동. 한국해양학회지 '바다' 9: 164-172
  5. 김형섭, 명금옥, 조수근, 이원호. 2003a. 광적응된 은편모조류를 섭식한 해양 광합성 섬모류 Mesodinium rubrum MR-MAL01의 흡광 스펙트럼. 한국해양학회지 '바다' 8: 29-34
  6. 김형섭, 이원호, 심재형. 2003b. 적조 원인생물 광합성 섬모류 Mesodinium rubrum의 생태 . 생리적 특성. pp. 321-336. '韓國의 生物海洋學 - 韓國沿岸海域의 플랑크톤 生態學-(曉山 沈載亨 敎授 停年退職記念 獻呈 단행본 : 최중기 엮음)'. 동화기술. 서울
  7. 김형섭, 2002. 서해연안 광영양 섬모류 Mesodinium rubrum의 개체군 동태 및 지속성장 조건. 박사학위논문, 군산대학교 대학원 159 p
  8. 명금옥, 2004. 해양광합성 섬모류 Mesodinium rubrum 종주와 먹이생물인 은편모류 종주간의 상호작용을 조절하는 생태학적 요인. 석사학위논문, 군산대학교 대학원. 60 p
  9. 심재형, 김웅서, 노일, 박용철, 박종규, 박철, 신윤근, 양성렬, 양재삼, 여환구, 유신재, 이동섭, 이원호, 장만, 정해진, 조병철, 차성식, 최중기. 2003. 제2장 제2절 채집과 처리. 플랑크톤 생태학. 서울대학교 출판부, 서울. 382p
  10. 양재삼, 정주영, 허진영, 이상호, 최진용. 1999. 금강하구의 물질수지 1. 영양염의 계절적 분포. 한국해양학회지 '바다' 4: 71-79
  11. 유종수. 1994. 인천항 선거 해양생태계 생물군집의 구조와 생산성 및 탄소순환. 박사학위논문, 서울대학교 대학원. 255p
  12. 柳宗秀, 李晋煥, 福代康夫, 1998. 적조원인종 섬모충류 Mesodinium rubrum(Lohmann) Hamburger et Buddenbrock에 관하여. Algae 13:143-149
  13. 윤양호, 노홍길, 김영기. 1991. 제주도 연안해역에 출현하고 있는 적조생물. 제주대 해양연보 15: 1-14
  14. 이상호, 최현용, 권효근. 2001. 하구언 수문 작동으로 인한 금강 하구역의 물리적 환경 변화: III. 저염수의 조석동조. 한국해양학회지 '바다' 6: 115-125
  15. 이용혁, 양재삼, 1997. 금강하구역에서 영양염류, 엽록소, 부유물질과 염분변화에 대한 500일간의 연속관측. 한국해양학회지 '바다' 2: 1-7
  16. 이원호 . 명금옥 . 유영두 . 김영길 . 정해진. 2005. 금강하구언 담수방류와 춘계 식물플랑크톤 군집의 단주기 변동. 한국해양학회지 '바다' 10: 154-163
  17. 최진용, 최현용, 서만석. 1995. 하구언 갑문폐쇄 후 금강하구역의 물리, 퇴적학적 특성 변화. 한국해양학회지 30: 262-270
  18. 최중기, 노재훈, 신경순, 박경철. 1991. 적조원인 섬모충류 Myrionecta rubra에 관한 고찰. 한국해양학회지 26: 371(요약)
  19. Choi J.K. and Noh J.H. 1993. The culture conditions and dimorphism of Mesodinium rubrum, redtide ciliate. Abstracts of 9th International Congress of Protozoology. July 25-31. Berlin, Germany p. 24
  20. Cloern J.E. Cole B.E. and Hager S.W. 1994. Notes on a Mesodinium rubrum red tide in San Francisco Bay (California, USA). J. Plankton Res.16: 1269-1276 https://doi.org/10.1093/plankt/16.9.1269
  21. Grasshoff K., Kremling K. and Ehrhardt M. (Eds.), 1999: Methods of Seawater Analysis, 3rd Ed., Weinheim; New York: Wiley-VCH. 600 pp
  22. Gustafson D.E.Jr., Stoecker D.K., Johnson M.D., Van Hukelem W.F. and Sneider K. (2000) Cryptophyte algae are robbed of their organelles by the marine ciliate Mesodinium rubrum. Nature 405: 1049-1052 https://doi.org/10.1038/35016570
  23. Janson S. 2004. Molecular evidence that plastids in the toxinproducing dinoflagellate genus Dinophysis originate from the free-living cryptophyte Teleaulax amphioxeia. Environmental Microbiology 6: 1102-1106 https://doi.org/10.1111/j.1462-2920.2004.00646.x
  24. Johnson M.D., Tengs T., Oldach D., Delwiche C.F., and Stoecker D.K. 2004. Highly divergent SSU rRNA genes gound in the marine ciliates Myrionecta rubra and Mesodinium pulex, Protist 155: 347-359 https://doi.org/10.1078/1434461041844222
  25. Johnson M.D. and Stoecker D.K. 2005. Role of feeding in growth and photophysiology of Myrionecta rubra. Aquat. Microb. Ecol. 39: 303-312 https://doi.org/10.3354/ame039303
  26. Justic D., Rabalais N.N., Turner R.E. and Dortch Q. 1995. Changes in nutrient structure of river-dominated coastal waters: stoichiometric nutrient balance and its consequences. Coastal and Shelf Science 40: 339-356 https://doi.org/10.1016/S0272-7714(05)80014-9
  27. Kyewalyanga M., Sathyendranath S. and Platt T. 2002. Effect of Mesodinium rubrum (Myrionecta rubra) on the action and absorption spectra of phytoplankton in a coastal marine inlet. J. Plankton Res. 24: 687-702 https://doi.org/10.1093/plankt/24.7.687
  28. Lindholm T. 1985. Mesodinium rubrum- a unique photosynthetic ciliate. Advances in AquaticMicrobiology 3: 1-48
  29. Lohmann H. 1908. Untersuchung zur Feststellung des vollstandigen Gehaltes des Meeres an Plankton. Wissenschaftliche Meeresuntersuchungen, Kiel 10: 129-370
  30. Lohrenz S.E., Fahnenstiel G.L., Redalje D.G., Lang G.A. Dagg M.J., Whitledge T.E. and Dortch Q. 1999. Nutrients, irradiance, and mixing as factors regulating primary production in coastal waters impacted by the Mississippi River plume. Continental Shelf Research 19: 1113-1141 https://doi.org/10.1016/S0278-4343(99)00012-6
  31. Owen R.W., Gianesella-Galvao S.F. and Kunter M.B.B. 1992. Discrete, subsurface layers of the autotrophic ciliate Mesodinium rubrum off Brazil. J. Plankton Res.14: 97-105 https://doi.org/10.1093/plankt/14.1.97
  32. Proenca L.A.O. 2004. A red water caused by Mesodinium rubrum on the coast of Santa Catarina, Southern Brazil. Brazilian Journal of Oceanography 52: 153-161 https://doi.org/10.1590/S1679-87592004000200007
  33. Putt M. 1990. Metabolism of photosynthate in the chloroplastretaining ciliate Loboea strobila. Marine Ecology Prgress Series 60: 271-282 https://doi.org/10.3354/meps060271
  34. Shim J.H. and Yang J.S. 1982. The community structure and distribution of phytoplankton of the Kum River Estuary. J. Oceanol. Soc. Korea 17: 1-11
  35. Stoecker D.K., Silver M.W., Michaels A.E. and Davis L.H. 1988. Obligate mixotrophy in Loboea strobila, a ciliate which retains chloroplasts. Marine Biology 99: 415-423 https://doi.org/10.1007/BF02112135
  36. Takishita K., Koike K., Maruyama T. and Ogata T. (2002) Molecular evidence for plastid robbery (kleptoplastidy) in Dinophysis, a dinoflagellate causing diarrhetic shellfish poisoning. Protist 153: 292-302
  37. Yih W., Myung G.O., Kim H.S., Park J.S. and Cho B.C. 2005. Ingestion of bacteria by the marine photosynthetic ciliate Mesodinium rubrum. Abstracts of IMBC2005 (International Marine Biotechnology Conference 2005), June 7-12, St. John's, Newfoundland and Labrador, Canada. p. 110
  38. Yih W., Kim H.S., Myung G.O. and Kim Y.G. 2004a. Rapid feeding on live organisms of the phototrophic ciliate, Mesodinium rubrum by Farrer's scallop Chlamys farreri. Mar. Biotechnol. 6: S142-S145
  39. Yih W., Kim H.S., JeongH.J., Myung G.O. and Kim Y.G. 2004b. Ingestion of cryptophyte cells by the marine photosynthetic ciliate Mesodinium rubrum. Aquat. Microb. Ecol. 36: 165-170 https://doi.org/10.3354/ame036165
  40. Yih W., Soung K.A., Kim H.S. and Park Y.M. 2000. Toward the establishment of routine laboratory culture of Mesodinium rubrum, a phototrophic marine ciliate. Bulletin of Coastal Research, KunsanNational University 12: 61-69
  41. Yih W. and Shim J.H. 1997. The planktonic phototrophic ciliate, Mesodinium rubrum, as a useful organism for marine biotechnologica applications. J. Mar. Biotechnol. 5: 82-85

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