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The ultrastructure of three microsporidia from winter moth, Operophtera brumata (L.), and the establishment of a new genus Cystosporogenes n.g. for Pleistophora operophterae (Canning, 1960) (1985)

Canning, Elizabeth U. ; Barker, Rosalind J. ; Nicholas, J. Paul ; [et al.]

Springer

Systematic parasitology 7 (1985), S. 213-225

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ISSN: 1573-5192

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The ultrastructure of three species of microsporidia in winter moths, Operophtera brumata (L.), has been used to consolidate taxonomic assessments previously based on light microscopy. The characters formerly used to assign Nosema operophterae Canning, 1960 to a new genus Orthosoma Canning, Wigley & Barker, 1983, namely that the nuclei are isolated and that sporoblasts are separated from ribbon-shaped multinucleate (2, 4, 8 or rarely 12 nuclei) sporonts, were upheld at the ultrastructural level. Development was in contact with the cell cytoplasm but all stages, which must have included meronts, had an electron dense surface coat. Nosema wistmansi Canning, Wigley & Barker, 1983, was found to be ultrastructurally typical of the genus Nosema Naegeli, 1857. An unusual feature of this species was the close association of cysternae of host endoplasmic reticulum with the surface of meronts, an association lost in sporogony. Pleistophora operophterae (Canning, 1960) has been transferred, on ultrastructural criteria, to a new genus Cystosporogenes n.g. Nuclei are isolated; all stages develop in a vesicle bounded by an envelope of enigmatic origin; this envelope persists around the spores as a sporophorous vesicle; division of the sporont within this vesicle is by budding and the number of sporoblasts, and therefore spores, is variable up to about 60. Microsporidia which undergo multisporous sporogony in sporophorous vesicles are now distributed among seven genera. These are: Glugea Thélohan, 1891; Pleistophora Gurley, 1893; Pseudopleistophora Sprague, 1977; Vavraia Weiser, 1977; Baculea Loubès & Akbarieh, 1978; Polydispyrenia Canning & Hazard, 1982 and Cystosporogenes n.g. New genera would appear to be needed for Pleistophora sp. of Sandars & Poinar (1976) and Pleistophora sp. of Percy, Wilson & Burke (1982). ac]19840404

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00011452

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The taxonomy of three species of microsporidia (Protozoa: Microspora) from an oakwood population of winter moths Operophtera brumata (L.) (Lepidoptera: Geometridae) (1983)

Canning, Elizabeth U. ; Wigley, Peter J. ; Barker, Rosalind J.

Springer

Systematic parasitology 5 (1983), S. 147-159

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ISSN: 1573-5192

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Three species of microsporidia from a population of winter moths, Operophtera brumata (L.), were examined by light microscopy. Pleistophora operophterae (Canning, 1960) is redescribed. The stages with one or two nuclei which were originally termed presporonts are now interpreted as fragments of disrupted vacuolated sporonts or prematuraly separated sporoblasts. The range of spore numbers within sporophorous vesicles is modified to 4 to c.60, rather than 10 to c.100. This species cannot be retained in the genus Pleistophora Gurley, 1893, redefined by Canning & Nicholas (1980), but ultrastructural studies are required before taxonomic reassignment is attempted. Nosema operophterae Canning, 1960 is also redescribed. Merogony consists mainly of binary fission of binucleate and tetranucleate stages but large irregular-shaped multinucleate meronts were also present. Ribbon-shaped sporonts with two, four or eight linearly-spaced nuclei give rise, via binucleate segments, to chains of uninucleate sporoblasts. The species is transferred to a new genus Orthosoma n.g. as Orthosoma operophterae (Canning, 1960) since its isolated nuclei and polysporoblastic sporogony are not characteristic of the genus Nosema Nägeli, 1857. The third species Nosema operophterae Purrini & Skatulla, 1979 is renamed N. wistmansi nom.nov. because the name given by Purrini & Skatulla was preoccupied and is now a synonym of O. operophterae. Details of the developmental stages of N. wistmansi are given, which show that it is typical of the genus Nosema, with nuclei in diplokaryon arrangement and with disporoblastic sporogony. All species are shown to have stages in the eggs of their hosts, which are thought to play a part in generation to generation transmission.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00049242

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