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Some Observations on Morphological Variation in the Red-Water Ciliate Mesodinium Rubrum

Published online by Cambridge University Press:  11 May 2009

David W. Crawford
David W. Crawford
Affiliation:
Department of Oceanography, The University, Highfield, Southampton, SO9 5NH
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Extract

Living cells of the ciliate Mesodinium rubrum were observed and photographed during summer red-water events in the Southampton Water estuary, southern England. These blooms were characterized by increases in maximum cell diameter and range of cell size, a pronounced morphological variation of the ‘oral’ hemisphere, and the presence of free-swimming ‘fragments’ of larger cells.

Red-water occurrences caused by the planktonic, phototrophic ciliate Mesodinium rubrum (Lohmann) Hamburger & Buddenbrock, have been characterized by some of the highest recorded levels of chlorophyll and primary productivity for natural populations of marine phytoplankton (Lindholm, 1985; Taylor, 1982). However, as these events are rather unpredictable and all attempts to culture M. rubrum have failed, descriptions of the morphology of living cells have been rather limited. A study into the impact of red-tides caused by M. rubrum in the Southampton Water estuary presented a useful opportunity to observe morphological variation in living cells. Water samples were taken with a ‘Van-Dorn’ sampler, and transported in polyethylene bottles in a cool box. Living cells were observed and photographed at 400x magnification using the phase-contrast optics of an Olympus BH2 photomicroscope. Autofluorescence of living cells was examined using a Zeiss fluoresence microscope.

Type
Short Communications
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 73 , Issue 4 , November 1993 , pp. 975 - 978
Copyright
Copyright © Marine Biological Association of the United Kingdom 1993

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References

Anderson, O.R., 1983. Radiohria. New York: Springer-Verlag.Google Scholar
Fonds, M. & Eisma, D., 1967. Upwelling water as a possible cause of red plankton bloom along the Dutch coast. Netherlands Journal of Sea Research, 3, 458463.Google Scholar
Hibberd, D.J., 1977. Observations on the ultrastructure of the cryptomonad endosymbiont of the red-water ciliate Mesodinium rubrum. Journal of the Marine Biological Association of the United Kingdom, 57, 4561.Google Scholar
Lindholm, T., 1985. Mesodinium rubrum- a unique photosynthetic ciliate. Advances in Aquatic Microbiology, 3, 148.Google Scholar
Lindholm, T., Lindroos, P. & Mörk, A.-C., 1988. Ultrastructure of the photosynthetic ciliate Mesodinium rubrum. Bio Systems, 21, 141149.Google Scholar
Montagnes, D.J.S. & Lynn, D.H., 1989. The annual cycle of Mesodinium rubrum in the waters surrounding the Isles of Shoals, Gulf of Maine. Journal of Plankton Research, 11, 193201.Google Scholar
Taylor, F.J.R., 1982. Symbioses in marine microplankton. Annales de I'Institut Océanographique, Monaco, Fascicule Supplémental, 58, 6190.Google Scholar
Taylor, F.J.R., Blackbourn, D.J. & Blackbourn, J., 1971. The red-water ciliate Mesodinium rubrum and its ‘incomplete symbionts’: a review including new ultrastructural observations. Journal of the Fisheries Research Board of Canada, 28, 391407.Google Scholar