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Cylinder-scales in marine flagellates from the genus Chrysochromulina (Haptophyceae = Prymnesiophyceae): further observations from C. microcylindra Leadbeater and C. cyathophora Thomsen

Published online by Cambridge University Press:  11 May 2009

I. Manton
Affiliation:
Physics/Administration Building, The University, Leeds
K. Oates
Affiliation:
Department of Biology, University of Lancaster, Bailrigg, Lancaster
J. Sutherland
Affiliation:
Department of Biology, Carleton University, Ottawa, Ontario, Canada

Extract

As aids to the phyletic interpretation of the newly described Chrysochromulina pachycylindra Manton et al., some hitherto unrecorded gatherings of C. microcylindra Leadbeater and C. cyathophora Thomsen, from South Africa and South Alaska respectively, are introduced, thereby amplifying the type descriptions of both species, which were previously known only from Europe. Characters shared between C. pachycylindra and C. microcylindra are numerous, including a capacity for transverse fracture of their cylinders not previously noted in the latter. This suggests an exceptional degree of affinity between these two species in spite of gross differences in relative dimensions of different parts of their respective cylinder scales. On the other hand the general resemblance between C. microcylindra and C. megacylindra (Leadbeater, 1972), previously noted, is unaffected by these findings and it is concluded that all three species could be treated as a closely related subgroup within the genus Chrysochromulina. In contrast, C. cyathophora is shown to be so different as to be interpretable only in terms of parallel evolution from a separate prototype source, the plate-scales in particular being so far unique in the genus in being thin, rimless, peculiarly patterned and convex when seen in section. The mere presence of cylinder-scales is thus seen to be insufficient evidence of phyletic affinity unless confirmed by other characters, among which the details of the plate-scales are probably the most important.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1981

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References

Fournier, R. O., 1971. Chrysocampanula spinifera gen. et sp.nov., a new marine haptophyte from the Bay of Chaleur, Quebec. Phycologia, 10, 8992.Google Scholar
Leadbeater, B. S. C., 1972. Fine structural observations on six new species of Chrysochromulina (Haptophyceae) from Norway, with preliminary observations on scale production in C. microcylindra sp.nov. Sarsia, 49, 6580.Google Scholar
Manton, I., 1972 a. Preliminary observations on Chrysochromulina mactra sp.nov. British Phycological Journal, 7, 2135.Google Scholar
Manton, I., 1972 b. Observations on the biology and microanatomy of Chrysochromulina megacylindra Leadbeater. British Phycological Journal, 7, 235248.CrossRefGoogle Scholar
Manton, I. & Leedale, G. F., 1961. Further observations on the fine structure of Chrysochromulina ericina Parke & Manton. Journal of the Marine Biological Association of the United Kingdom, 41, 145155.CrossRefGoogle Scholar
Manton, I., Oates, K. & Course, P. A., 1981. Cylinder-scales in marine flagellates from the genus Chrysochromulina (Haptophyceae = Prymnesiophyceae) with a description of C. pachycylindra sp.nov. Journal of the Marine Biological Association of the United Kingdom, 61, 1726.Google Scholar
Manton, I., Sutherland, J. & Mccully, M., 1976. Fine structural observations on coccolithophorids from South Alaska in the genera Papposphaera Tangen and Pappomonas Manton and Oates. British Phycological Journal, 11, 225238.Google Scholar
Parke, M., Manton, I., & Clarke, B., 1956. Studies on marine flagellates. III. Three further species of Chrysochromulina. Journal of the Marine Biological Association of the United Kingdom, 35, 387414.CrossRefGoogle Scholar
Pienaar, R. N. & Norris, R. E., 1979. The ultrastructure of the flagellate Chrysochromulina spinifera (Fournier) comb.nov. (Prymnesiophyceae) with special reference to scale production. Phycclogia, 18, 99108.CrossRefGoogle Scholar
Thomsen, H. A., 1979. Chrysochromulina cyathophora (Prymnesiophyceae), a new species from Danish coastal waters. Botaniska notiser, 132, 7176.Google Scholar