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Gruberella flavescens (Gruber, 1889), a multinucleate lobose marine amoeba (Gymnamoebia)

Published online by Cambridge University Press:  11 May 2009

F. C. Page
F. C. Page
Affiliation:
Culture Centre of Algae and Protozoa, Institute of Terrestrial Ecology, Natural Environment Research Council, 36 Storey's Way, Cambridge, CB3 oDT
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Extract

A multinucleate, monopodial, lobose amoeba from a Cornish rock pool was identified as Amoeba flavescens Gruber, 1889, originally described from the Mediterranean. It is the type species of a genus Gruberella. Although its locomotive form and activity resemble those of the uninucleate Vahlkampfiidae and its Golgi system, like that of the vahlkampfiids, is not organized into dictyosomes, its mitotic pattern differs from that of the vahlkampfiids. The presence of mitochondria and other characters distinguish it from Pelomyxa. The only other similar marine amoeba is Hyperamoeba fallax Seravin & Goodkov, 1982, from the Far East. The process of ‘paracopulation’ reported for H. fallax was not observed in the Cornish isolates. Pending more evidence of familial relationships, Gruberella remains incertae sedis within the suborder Gymnamoebia Haeckel, 1862.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 64 , Issue 2 , May 1984 , pp. 303 - 316
Copyright
Copyright © Marine Biological Association of the United Kingdom 1984

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References

REFERENCES

Alexeieff, A., 1924. Notes sur quelques Protistes coprocoles. Archiv für Protistenkunde, 24, 2749.Google Scholar
Andresen, N., 1973. General morphology. In The Biology of Amoeba (ed. Jeon, K.W. ), pp. 99123. Academic Press.CrossRefGoogle Scholar
Andresen, N.Chapman-Andresen, C. & Nilsson, J. R. 1968. The fine structure of Pelomyxa palustris. Comptes rendus des travaux du Laboratoire Carlsberg, 36, 285317.Google ScholarPubMed
Bovee, E. C. & Sawyer, T. K. 1979. Marine Flora and Fauna of the Northeastern United States. Protozoa: Amoebae. 56 pp. Washington: National Marine Fisheries Service.Google Scholar
Chapman-Andresen, C. & Hamburger, K. 1981. Respiratory studies on the giant amoeba Pelomyxa palustris. Journal of Protozoology, 28, 433440.CrossRefGoogle Scholar
Daniels, E. W. 1973. Ultrastructure. In The Biology of Amoeba (ed. Jeon, K. W.), pp. 125169. Academic Press.CrossRefGoogle Scholar
Daniels, E. W. & Breyer, E. P. 1967. Ultrastructure of the giant amoeba Pelomyxa palustris. Journal of Protozoology, 14, 167179.CrossRefGoogle Scholar
Delphy, J. 1938. Etudes de morphologie et de physiologie sur la faune d'Arcachon. Bulletin de la Station biologique d'Arcachon, 35, 4975.Google Scholar
Goodkov, A. V.Seravin, L. N. & Railkin, A. I. 1982. Novaya morskaya ameba Hyperamoeba fallax gen. et sp.n. (Protozoa, Lobosea). (A new marine amoeba Hyperamoeba fallax gen. et sp.n. (Protozoa, Lobosea).) Zoologicheskiĭ zhurnal, 61, 12851290.Google Scholar
Gruber, A. 1889. Über einige Rhizopoden aus dem Genueser Hafen. Bericht der Naturforschenden Gesellschaft zu Freiburg im Breisgau, 4, 3344.Google Scholar
Kudo, R. R. 1947. Pelomyxa carolinensis Wilson. II. Nuclear division and plasmotomy. Journal of Morphology, 80, 93104.CrossRefGoogle Scholar
Kufferath, H. 1952. Recherches sur le plancton de la Mer Flamande (Mer du Nord Méridionale). Bulletin de l'lnstitut royal des sciences naturelles de Belgique, 28 (10), 139.Google Scholar
Page, F. C. 1972. Rhizamoeba polyura n.g., n.sp., and uroidal structures as a taxonomic criterion for amoebae. Transactions of the American Microscopical Society, 91, 502513.CrossRefGoogle Scholar
Page, F. C. 1974a. A further study of taxonomic criteria for limax amoebae, with descriptions of new species and a key to genera. Archiv für Protistenkunde, 116, 149184.Google Scholar
Page, F. C. 1974b. Some marine Platyamoeba of East Anglia. Journal of the Marine Biological Association of the United Kingdom, 54, 651664.CrossRefGoogle Scholar
Page, F. C. 1976. An Illustrated Key to Freshwater and Soil Amoebae. 155 pp. Ambleside: Freshwater Biological Association.Google Scholar
Page, F. C. 1978. Acrasis rosea and the possible relationship between Acrasida and Schizopyrenida. Archiv für Protistenkunde, 120, 169181.CrossRefGoogle Scholar
Page, F. C. 1979. Vexillifera armata n.sp. (Gymnamoebia, Paramoebidae), an estuarine amoeba with distinctive surface structures and trichocyst-like bodies. Protistologica, 15, 111122.Google Scholar
Page, F. C. 1980. A light- and electron-microscopical comparison of marine limax and flabellate amoebae belonging to four genera. Protistologica, 16, 5778.Google Scholar
Page, F. C. 1981. Eugène Penard's slides of Gymnamoebia: re-examination and taxonomic evaluation. Bulletin of the British Museum (Natural History) (Zoology), 40, 132.Google Scholar
Page, F. C. 1983. Marine Gymnamoebae. 54 pp. Cambridge: Institute of Terrestrial Ecology.Google Scholar
Roth, L. E. & Daniels, E. W. 1962. Electron microscopic studies of mitosis in amebae. II. The giant ameba Pelomyxa carolinensis. Journal of Cell Biology, 12, 5678.Google ScholarPubMed
Sawyer, T. K. 1980. Marine amebae from clean and stressed bottom sediments of the Atlantic Ocean and Gulf of Mexico. Journal of Protozoology, 27, 1332.CrossRefGoogle Scholar
Schaeffer, A. A. 1926. Taxonomy of the Amebas. 116 pp. Washington: Carnegie Institution of Washington.Google Scholar
Seravin, L. N.Goodkov, A. V. & Railkin, A. I. 1982. Parakopulyatsiya u morskoy ameby Hyperamoeba fallax. (Paracopulation in the marine amoeba Hyperamoeba fallax.) Doklady Akademii nauk SSSR, 266, 10201022.Google Scholar
Thiéry, J.-P. 1967. Mise en évidence des polysaccharides sur coupes fines en microscopie électronique. Journal de Microscopie, 6, 9871018.Google Scholar