1 |
Anderson, D.M., 1984. Shellfish toxicity and dormant cysts in toxic dinoflagellate blooms. In: Seafood toxins, Ragelis E.P. ed., American Chemical Society, Washington D.C. 125-138 pp
|
2 |
Anderson, D.M., S.W Chisholm and C.J. Watras, 1983. The importance of life cycle events in the population dynamics of Gonyaulax tamarehsis. Mar. BioI., 76: 179-190
DOI
|
3 |
Brazeiro, A, J.T. Mendoca and G. Ferrari, 1997. The first toxic bloom of Alexandrium tamarense in Uruguay: associated environmental factors. Atlantica 1997, 19: 19-29
|
4 |
Franks, P.J.S. and D.M. Anderson, 1992. Alongshore transport of a toxic phytoplankton bloom in a buoyancy current: Alexandrium tamarense in the Gulf of Maine. Mar. BioI., 112: 153-164
DOI
|
5 |
Haigh, R. and F.J.R. Taylor, 1990. Distribution of potentially harmful phytoplankton species in the northern Strait of Georgia, British Columbia. Can. J. Fish. Aquat. Sci., 47: 2339-2350
DOI
|
6 |
Hajdu, S., L. Elder, I. Olenina and B. Witek, 2000. Spreading and establishment of the potentially toxic dinoflagellate Prorocentrum minimum in the Baltic Sea. Int. Rev. Hydrobiol., 85: 561-575
DOI
ScienceOn
|
7 |
Jeong, H.J., J.K. Park, H.Y. Choi, J.S. Yang, J.H. Shim, Y.K. Shin, W.H. Yih, H.S. Kim and K.J. Cho, 2000. The outbreak of red tides in the coastal waters off Kohung, Chonnam, Korea. 2. The temperal and spatial variations in the phytoplanktonic community in 1997. J. Oceanol. Soc. Korea, 5: 27-36
|
8 |
Joint, I., J. Lewis, J. Aiken, R. Proctor, G. Moore, W. Higman and D.M. Anderson, 1997. International variability of PSP outbreaks on the north east UK coast. J. Plankton Res., 19: 937-956
DOI
ScienceOn
|
9 |
Kim, C.H. and J.B. Shin, 1997. Harmful and toxic red tide algal development and toxins production in Korean coastal waters. Algae, 12: 269-276
|
10 |
Kim, H.G., S.G. Lee and K.H. An, 1996. Interannual changes in Heterosigma akashiwo blooms. Bull. Nat. Fish. Res. Dev. Agency, 52: 1-14
|
11 |
Litaker, R.W., V.E. Warner, C. Rhyne, C.S. Duke, B.E. Kenney, J. Ramus and P.A. Tester, 2002b. Effect of diel and interday variations in light on the cell division pattern and in situ growth rates of the bloom-forming dinoflagellate Heterocapsa triquetra. Mar. Ecol. Prog. Ser., 232: 63-74
DOI
|
12 |
Stein, J.R, 1973. Handbook of Phycological Methods. Cambridge University Press, London, 289-311 pp
|
13 |
Robichaux, R.J., Q. Dortch and J.H. Wrenn, 1998. Occurrence of Gymnodinium sanguineum in Louisiana and Texas coastal waters, 1989-1994. NOAA Tech. Rep. NMFS, 143: 19-26
|
14 |
Rodriguez-Villar, L. and O. Zarate-Huerta, 1985. Observations of red tides in San Jorge Bay, Antofagasta, Chile. Estud. Oceanol. Inst. Invest. Univ. Antofagasta, 4: 81-85
|
15 |
Sorokin, Y.I., P.Y. Sorokin and G. Ravagnan, 1996. On an extremely dense bloom of the dinoflagellate Alexandrium tamarense in lagoon of the Po River Delta: impact on the environment. J. Sea Res., 35: 251-255
DOI
ScienceOn
|
16 |
이종수, 신일식, 김영만, 장동석, 1997. '96년 거제에서 패류 중독 사고를 유발한 진주담치의 마비성 독소. 한국수산학회지, 30: 158-160
|
17 |
박주석, 김학균, 이삼근, 1988. 진해만의 적조현상과 원인생물의 천이. 수진연구보고, 41: 1-26
|
18 |
국립수산과학원, 2003. 한국해양환경 조사연보 2002. 제7권. 193 pp
|
19 |
Watanabe, M.M., Y. Nakamura and S. Mori, 1982. Effects of physicochemical factors and nutrients on the growth of Heterosigma akashiwo HADA from Osaka Bay, Japan. Jap. J. Phycol., 30: 279¬288
|
20 |
Weise, A.M., M. Levasseur, F.J. Saucier, S. Senneville, E. Bonneau, S. Roy, G. Sauve, S. Michaud and J. Fauchot, 2002. The link between precipitation, reiver runoff and blooms of the toxic dinoflagellate Alexandrium tamarense bloom in the St. Lawrence. Can. J. Fish. Aquat. Sci., 59: 464-473
DOI
ScienceOn
|
21 |
김학균, 이삼근, 안경호, 윤성화, 이필용, 이창규, 조은섭, 김정배, 최희구, 김평중, 1998. 한국연안의 적조. - 최근 적조의 발생 원인과 대책-. 국립수산진흥원, 292 pp
|
22 |
Nishijima, T., Y. Hata, S. Yamaguchi, 1989. Physiological ecology of Prorocentrum triestinum. Bull. Jpn. Soc. Sci. Fish., 55: 2009-2014
DOI
|
23 |
Zhu, M., R. Li, X. Mu and R. Ji, 1997. Harmful algal blooms in China Seas. Ocean. Res., 19: 173-184
|
24 |
Adachi, R., 1972. A taxonomical study of the red tide organisms. J. Fac. Fish. Pref. Univ. Mie, 9: 9-144
|
25 |
Yamochi, S., 1984a. Effects of temperature on the growth of six species of red-tide flagellates occurring in Osaka Bay. Bull. Plankton Soc. Jpn., 31: 15-22
|
26 |
신재범, 2002. 유독적조발생 예측을 위한 와편모조 Alexandrium tamarense/catenella 휴면포자의 분포 및 발아능 조사. 부경대학교 수산학석사 학위논문, 46 pp
|
27 |
Anderson, D.M., D.M. Kulis and G.J. Doucette, 1994. Biogeography of toxic dinoflagellates in the genus Alexandrium from the northeastern United States and Canada. Mar. BioI., 120: 467-478
DOI
ScienceOn
|
28 |
김창훈, 신재범, 1997. 한국 연안의 유해.유독 적조조류의 발생과 독성생산. Algae (The Kor. J. Phycol.), 12: 251-264
|
29 |
Yang, J.S., H.Y. Choi, H.J. Jeong, J.Y. Jeong and J.K. Park, 2000. The outbreak of red tides in the coastal waters off Kohung, Chonnam, Korea: 1. Physical and chemical characteristics in 1997. J. Oceanol. Soc. Korea,5: 16-26
|
30 |
Kain, J.M. and E. Fogg, 1960. Studies of the growth of marine phytoplankton. 3. Prorocentrum micans Ehrenberg. J. Mar. BioI. Assoc. UK. 39: 33-50
DOI
|
31 |
Litaker, R.W., P.A. Tester, C.S. Duke, B.E. Kenney, J.L. Pinckney and J. Ramus, 2002a. Seasonal niche strategy of the bloom-forming dinoflagellate Heterocapsa triquetra. Mar. Ecol. Prog. Ser., 232: 45-62
DOI
|
32 |
Botes, L., G.C. Pitcher and P.A. Cook, 2000. The potential risk of harmful algae to abalone farming on the south coast of South Africa. Journal of Shellfish Research, 19: 502
|
33 |
Kato, S., 1988. Oceanographic conditions associated with an intensive red tide bloom of Prorocentrum micans in Ise Bay. Bull. Jpn. Soc. Sci. Fish., 54: 1673-1679
DOI
|
34 |
Kim, H.G., 1986a. Ecological study of dinoflagellate responsible for red tide. 1. The population growth and control of Prorocentrum triestinum Schiller. Bull. Nat. Fish. Res. Dev. Agency, 39: 1-6
|
35 |
Mori, S., Y. Nakamura, M. Watanabe and S. Yamochi, 1982. The effect of various environmental factors on the growth yield of red tide algae. II. Olisthodiscus luteus. Res. Rep. Natl. Inst. Environ. Stud. Jpn., 30: 71-86
|
36 |
Cannon, J.A., 1990. Development and dispersal of red tides in the Port River, South Australia. In: Toxic Marine Phytoplankton. Grancli, E., B. Sundstroem, L. Edler and D.M. Anderson, eds. 1990. 110-115
|
37 |
Garate-Lizarranga, I., M.L Hernandez-Orozco, C.J. Band-Schmidt and G. Serrano-Casillas, 2001. Red tides along the coasts of Baja California Sur, Mexico (1984 to 2001).2001. Investigations Marinas, CICIMAR, 16: 127-134
|
38 |
Jung, C.S., W.J. Choi, H.K. Kim, Y.G. Jung, J.B. Kim and W.A. Lim, 1999. Interrelation between Cochlodinium polykrikoides blooms and community structure of zooplankton in the coastal waters around Namhaedo in the South Sea of Korea, 1998. Bull. Nat'l, Fish. Res. Dev. Inst. Korea, 57: 153-161
|
39 |
Cembella, A.D., M.A. Quilliam, N.I. Lewis, A.G. Bauder, C. Dell-Aversano. K. Thomas, J. Jellett and R.R. Cusack, 2002. The toxic marine dinoflagellate Alexandrium tamarense as the probable cause of mortality of caged salmon in Nova Scotia. Harmful Algae, 1: 313-325
DOI
ScienceOn
|
40 |
Hallegraeff, G.M., 1995. Harmful algal blooms: A global overview. In: Manual on harmful marine microalgae. Hallegraeff G.M., D.M. Anderson and A.D. Cembella ed. IOC Manuals and Guides No. 33: 1-19
|
41 |
Olli, K., A.S. Heiskanen and J. Seppala, 1996. Development and fate of Eutreptiella gymnastica bloom in nutrient-enriched enclosures in the coastal Baltic Sea. J. Plankton Res., 18: 1587-1604
DOI
ScienceOn
|
42 |
Silva, E.S., 1985. Ecological factors related to Prorocentrum minimum bloom in obidos lagoon (Portugal). In. proceedings of 3rd International Conference on toxic dinoflagellate blooms, 251-256 pp
|
43 |
Wang, Z., Q. Zhang and H. Lu, 2000. Effect of temperature, salinity, light and pH on the growth of red tide organisms Prorocentrum micans. Oceanol. Lirnnol. Sin., Haiyang Yu Huzhao., 32: 15-18
|
44 |
Yamamoto, T., T. Hashimoto, K Tarutani and Y. Kotani, 2002. Effects of winds, tides and river water runoff on the formation and disappearance of the Alexandrium tamarense bloom in Hirosima Bay, Japan. Harmful Algae, 1: 301-312
DOI
ScienceOn
|
45 |
Honjo, T., 1993. Overview on bloom dynamics and physiological ecology of Heterosigma akashiwo. in: Toxic phytoplankton blooms in the sea. Smayda T.J. and Y. Shimizu, eds. Amsterdam Netherlands Elsevier, 3: 33-42
|
46 |
Ono, K., S. Khan and Y. Onoue, 2000. Effects of temperature and light intensity on the growth and toxicity of Heterosigma akashiwo (Raphidophyceae). Aquacult. Res., 31: 427-433
DOI
ScienceOn
|
47 |
Wu, Y., C. Zhou, Y. Zhang, X. Pu and W. Li, 2000. Evolution and causes of formation of Gymnodinium sanuineum bloom in Yantai Sishili Bay. Oceanol. Lirnnol. Sin., Haiyang Yu Huzhao., 32: 159¬167
|
48 |
Yamochi, S. and T. Abe, 1984. Mechanisms to initiate a Heterosigma akashiwo red in Osaka Bay. 2. Diel viertical migration. Mar. BioI., 83: 255-261
DOI
|
49 |
Iwasaki H., 1971. Studies on the red tide flagellates on Eutreptiella sp. and Exuviaella sp. appeared in Bingo-Nada, the Seto Inland Sea in 1970. J. Oceanogr. Soc. Jpn., 27: 152-157
DOI
|
50 |
Hosaka, M., 1992. Growth characteristics of a strain of Heterosigma akashiwo HADA isolated from Tokyo Bay, Japan. Bull. Plankton Soc. Jpn., 39: 49-58
|
51 |
Watanabe, M.M and Y. Nakamura, 1984. Growth characteristics of a red tide flagellate, Heterosigma akashiwo HADA. I. The effect of temerature, salinity, light intensity and pH on growth. Res. Rep. Natl. Inst. Environ. Stud. Jpn., 63: 51-58
|
52 |
Yamaji, I., 1984. Illustration of the marine plankton of Japan, Hoikusha Pub. Co. Japan. 122 pp
|
53 |
山本民次, 燇谷賢治, 松田 治, 2000. 有毒過鞭毛藻 Alexandrium tamarenseのブル一 發生 メカニズとの豫知および防御の可能性. 水産硏究業書 48: 250-176
|
54 |
Hallegraeff, G.M., 1992. On the global spreading of toxic dinoflagellates. Ciguatera Inf. Bull., 2: 2-4
|
55 |
Kim, H.G., 1986b. Ecological study of dinoflagellate responsible for red tide. 2. The population growth of Prorocentrum minimum (Pav.) Schiller. Algae (The Kor. J. Phycol.), 1: 103-106
|
56 |
Kondo, K., Y. Seike and Y. Date, 1990. Red tides in the brackish lake Nakanoumi. 2. Relationships between the occurrence of Prorocentrum minimum red tide and environmental conditions. Bull. Plankton Soc. Jpn., 37: 19-34
|
57 |
Grzebyk, D. and B. Berland, 1996. Influences of temperature, salinity and irradiance on growth of Prorocentrum minimum (Dinophyceae) from the Mediterranean Sea. J. Plankton. Res., 18: 1837¬1849
|
58 |
Labib, W., 2000. Dinoflagellate 'Brown tides' in Alexandria, Egypt waters during 19971998. Pak. J. Mar. Sci., 9: 33-49
|
59 |
Kim, H.G., J.S. Park and S.G. Lee, 1990. Coastal algal blooms caused by the cyst-forming dinoflagellates. Bull. Korean Fish. Soc., 23: 468-474
|
60 |
Lassus, P., E. Abadie, Z. Amzil, C. Belin, M.A. Comps, P.P. Elziere, C. Le-Bec, C.L.B. Marcaillou, E. Nezan and R. Poggi, 1999. Contamination of Thau lagoon by A. tamarense. The November/ December 1988 episode. Plouzane-France Ifremer, 1999,44 pp
|
61 |
Yan, T., M. Zhou and P. Qian, 2002. Growth of fish-killing red tide species raphidophyte Heterosigma akashiwo. Oceanol. Limnol. Sin. Haiyang Yu Huzhao, 33: 209-214
|
62 |
Franks, P.J., 1990. Dinoflagellate bloom and physical systems in the Gulf of Maine. Tech. Rep. Woods Hole Oceanogr. Inst., 1990, 267 pp
|
63 |
Okaichi, T., 1980. Soluble organic substances in bottommud of the Seto Inland Sea and their physiological effects on Eutreptiella sp. Umi To Sora, 56: 93-105
|
64 |
Okaichi, T. and Y. Imatomi, 1979. Toxicity of Prorocentrum minimum var. Mariae-Lebouriae assumed to be a causative agent of short-necked clam poisonings. In. proceedings of 2nd International Conference on toxic dinoflagellate blooms., 385-388 pp
|
65 |
Yoshida, Y., S. Kojima and M. Sato, 1998. Relationship between the dominant occurrence of Heterosigma akashiwo and water quality or meteorological factors in the inner part of Tokyo Bay. Bull. Jpn. Soc. Sci. Fish., 64: 1013-1019
DOI
ScienceOn
|
66 |
이창규, 김형철, 이삼근, 정창수, 김학균, 임월애. 2001. 남해안 연안에서 적조생물 Cochlodinium polykrikoides, Gyrodinium impudicum, Gymnodinium catenatum의 출현상황과 온도, 염분, 광도 및 영양염류에 따른 성장특성. 한국수산학회지, 34: 691-696
|
67 |
McLaughlin, J.J.A., 1979. Salinity influence on the ecology of phytoflagellate blooms in Lower New York Bay and adjacent waters. J. Exp. Mar. BioI. Ecol., 37: 213-223
DOI
ScienceOn
|
68 |
Yamochi, S., 1984b. Nutrient factors involved in controlling the growth of red tide flagellates Prorocentrum micans, Eutreptiella sp. and Chattonella marina in Osaka Bay. Bull. Plankton Soc. Jpn., 31: 97-106
|
69 |
Anderson, D.M., 1998. Physiology and bloom dynamics of toxic Alexandrium tamarense species with emphasis on life cycle transitions. In: Physiological ecology of harmful algal blooms. Anderson, D.M., A.D. Cembella and G.M. Hallegradff, eds., NATO, ASI Series. Ecological science, 41: 29-48
|
70 |
Steidinger, K.A., D.A. Stockwell, E.W. Truby, W.J. Wardle, Q. Dortch and F.M. Van-dolah, 1998. Phytoplankton blooms off Louisiana and Texas, May-June 1994. NOAA Tech. Rep. NMFS, 143: 13-18
|