Hostname: page-component-84b7d79bbc-4hvwz Total loading time: 0 Render date: 2024-07-30T22:28:23.788Z Has data issue: false hasContentIssue false
  • English
  • Français

Distribution of paralytic shellfish poison among Pyrrhophyta

Published online by Cambridge University Press:  11 May 2009

Robert J. Schmidt  and
Alfred R. Loeblich III
Robert J. Schmidt
Affiliation:
University of Houston, Marine Science Program, Building 305, 4700 Avenue U, Galveston, Texas 77550, U.S.A.
Alfred R. Loeblich III
Affiliation:
University of Houston, Marine Science Program, Building 305, 4700 Avenue U, Galveston, Texas 77550, U.S.A.
Get access Rights & Permissions [Opens in a new window]

Extract

Using the mouse bioassay for paralytic shellfish poison (PSP), the distribution of toxicity among 23 dinoflagellate species was studied. Special consideration was given to red-tide-forming species and to those species previously implicated as causative organisms in paralytic shellfish poisoning. Among those investigated were ten marine species of the genus Gonyaulax, previously known to contain three toxic species. The presence of PSP was detected only in Gonyaulax species of the section Catenella. The amount of toxin varied in different species, ranging from 0.05 to 24 pg/cell. The amount of toxin per cell also varied with the phase of growth (exponential or stationary) in the New England red-tide species, G. tamarensis var. excavata Braarud.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 59 , Issue 2 , May 1979 , pp. 479 - 487
Copyright
Copyright © Marine Biological Association of the United Kingdom 1979

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Burke, J. M., Marchisotto, J., McLaughlin, J. J. A. & Provasoli, L., 1960. Analysis of the toxin produced by Gonyaulax catenella in axenic culture. Annals of the New York Academy of Sciences, 90, 837842.CrossRefGoogle ScholarPubMed
Evans, M. H., 1975. Saxitoxin and related poisons: their actions on man and other mammals. In Proceedings of the First International Conference on Toxic Dinoftagellate Blooms (ed. Locicero, V. R.), pp. 337345. Wakefield, Massachusetts: Massachusetts Science and Technology Foundation.Google Scholar
Guillard, R. R. L. & Ryther, J. H., 1962. Studies of marine planktonic diatoms. I. Cyclotella nana Hustedt, and Detonula confervacea (Cleve) Gran. Canadian Journal of Microbiology, 8, 229239.CrossRefGoogle ScholarPubMed
Lee, R. F. & Loeblich, A. R. III, 1971. Distribution of 21:6 hydrocarbon and its relationship to 22:6 fatty acid in algae. Phytochemistry, 10, 593602.CrossRefGoogle Scholar
Loeblich, A. R. III, 1975. A seawater medium for dinoflagellates and the nutrition of Cachonina niei. Journal of Phycology, 11, 8086.CrossRefGoogle Scholar
Loeblich, A. R., & Loeblich, L. A., 1979. The systematics of Gonyaulax with special reference to the toxic species. In Proceedings of the Second International Conference on Toxic Dinofiagellate Blooms (ed. Taylor, D. L.). (In the Press.)Google Scholar
Loeblich, L. A. & Loeblich, A. R. III, 1975. The organism causing New England red tides: Gonyaulax excavata. In Proceedings of the First International Conference on Toxic Dinofiagellate Blooms (ed. Locicero, V. R.), pp. 207224. Wakefield, Massachusetts: Massachusetts Science and Technology Foundation.Google Scholar
Nakazima, M., 1968. Studies on the source of shellfish poison in Lake Hamana. IV. Identification and collection of the noxious dinofiagellate. Bulletin of the Japanese Society of Scientific Fisheries, 34, 130132.CrossRefGoogle Scholar
Patton, S., Chandler, P. T., Kalan, E. B., Loeblich, A. R. III, Fuller, G. & Benson, A. A., 1967. Food value of red tide (Gonyaulax polyedra). Science, New York, 158, 789790.CrossRefGoogle ScholarPubMed
Prakash, A., 1963. Source of paralytic shellfish toxin in the Bay of Fundy. Journal of the Fisheries Research Board of Canada, 20, 983996.CrossRefGoogle Scholar
Prakash, A., Medcof, J. C. & Tennant, A. D., 1971. Paralytic shellfish poisoning in eastern Canada. Bulletin. Fisheries Research Board of Canada, no. 177, 87 pp.Google Scholar
Prakash, A. & Taylor, F. J. R., 1966. A ‘red water’ bloom of Gonyaulax acatenella in the Strait of Georgia and its relation to paralytic shellfish toxicity. Journal of the Fisheries Research Board of Canada, 23, 12651270.CrossRefGoogle Scholar
Reinecke, P., 1967. Gonyaulax grindleyi sp.nov.: a dinoflagellate causing a red tide at Elands Bay, Cape Province, in December 1966. Journal of South African Botany, 33, 157160.Google Scholar
Schantz, E. J., 1971. The dinoflagellate poisons. In Microbial Toxins, vol. 7, Algal and Fungal Toxins (ed. Kadis, S., Ciegler, A. and Ajl, S. J.), pp. 326. New York and London: Academic Press.CrossRefGoogle Scholar
Schantz, E. J., Ghazarossian, V. E., Schnoes, H. K., Strong, F. M., Springer, J. P., Pezzanite, J. O. & Clardy, J., 1975. Paralytic poisons from marine dinoflagellates. In Proceedings of the First International Conference on Toxic Dinoflagellate Blooms (ed. Locicero, V. R.), pp. 267274. Wakefield, Massachusetts: Massachusetts Science and Technology Foundation.Google Scholar
Schmidt, R. J. & Loeblich, A. R. III, 1979. A discussion of the systematics of toxic Gonyaulax species containing paralytic shellfish poison. In Proceedings of the Second International Conference on Toxic Dinoflagellate Blooms (ed. Taylor, D. L.). (In the Press.)Google Scholar
Schradie, J. & Bliss, C. A., 1962. The cultivation and toxicity of Gonyaulax polyedra. Lloydia, 25, 214221.Google Scholar
Seaton, D. D., 1972. Dinoflagellates associated with mass mortalities of marine organisms and/or capable of toxin production, with particular reference to the North Sea and adjacent sea areas. Department of Agriculture and Fisheries for Scotland. Marine Laboratory Internal Report, no. IR 72–2, 30 pp. (Unpublished typescript.)Google Scholar
Shimizu, Y., Alam, M., Oshima, Y., Buckley, L. J., Fallon, W. E., Kasai, H., Miura, I., Gullo, V. P. & Nakanishi, K., 1977. Chemistry and distribution of deleterious dinoflagellate toxins. In Marine Natural Products Chemistry (ed. Faulkner, D. J. and Fenical, W. H.), pp. 261269. New York: Plenum Publishing Corporation.CrossRefGoogle Scholar
Silva, E. S., 1963. Les ‘Red waters’ à la Lagune d'Óbidos. Ses causes probables et ses rapports avec la toxicité des bivalves. In Proceedings of the Fourth International Seaweed Symposium, Biarritz, 1971 (ed. De Virville, A. D. and Feldmann, J.), pp. 265275. Pergamon Press.Google Scholar
Sommer, H. & Meyer, K. F., 1937. Paralytic shellfish poisoning. Archives of Pathology, 24, 560598.Google Scholar
Swift, E. & Wall, D., 1972. Asexual reproduction through a thecate stage in Pyrocystis acuta Kofoid, 1907 (Dinophyceae). Phycologia, 11, 5765.CrossRefGoogle Scholar
Tuttle, R. C. & Loeblich, A. R. III, 1975. An optimal growth medium for the dinoflagellate Crypthecodinium cohnii. Phycologia, 14, 18.CrossRefGoogle Scholar