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On Two Infective Filarial Larvae in Mansonia crassipes with a Note on other Infective Larvae in Wild-caught Mosquitoes in Ceylon

Published online by Cambridge University Press:  05 June 2009

A. S. Dissanaike
Affiliation:
Department of Parasitology, University of Ceylon
W. J. Nlles
Affiliation:
Department of Entomology, Medical Research Institute, Colombo

Extract

1. The morphology of the infective larvae of Cardiofilaria nilesi and Pelecitus sp. in Mansonia crassipes is described in some detail, and sex differences have been noted in them.

2. Infective larvae of C. nilesi can be distinguished from those of Wuchereria bancrofti by the form of the caudal papillae.

3. A brief description is given of four unidentified larvae from other wild-caught mosquitoes in Ceylon.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1967

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References

Cartern, H. F., 1948.—“Records of filaria infection in mosquitoes in Ceylon.”Ann. trop. Med. Parasit., 42, 312321.CrossRefGoogle Scholar
Dissanaike, A. S., 1907.—“Pelecitus ceylonensis n.sp., from the chick and ash dove experimentally infected with larvae from Mansonia crassipes, and from naturally-infected crows in Ceylon.” Ceylon J. Set. biol. Sci., 7, (In Press).Google Scholar
Dissanaike, A. S. and Fernando, M. A., 1965.—“Cardiofilaria nilesi n.sp., recovered from a chicken experimentally infected with infective larvae from Mansonia crassipes.” J. Helminth., 39, 161–158.CrossRefGoogle ScholarPubMed
Jayewardene, L. G., 1963.—“Larval development of Brugia ceylonensis Jaye- wardene, 1962, in Aedes aegypti, with a brief comparison of the infective larva with those of Brugia spp., Dirofilaria repens and Artionema digitata.” Ann. trop. Med. Parasit., 57, 359370.CrossRefGoogle Scholar
Niles, W. J., 1966.—“Mansonia crassipes, a vector of bird filarioids in Ceylon.” Ceylon J. med. Sci., 15, (In Press).Google Scholar
Niles, W. J., Fernando, M. A. and Dissanaike, A. S., 1965.—“Mansonia crassipes as the natural vector of filarioids, Plasmodium gallinaceum and other plasmodia of fowls in Ceylon.” Nature, Lond., 205, (4969) 411412.CrossRefGoogle ScholarPubMed
Ono, N., 1960.—“Comparative studies on various stages of larvae of Setaria spp. in anopheline mosquitoes.” J. Kurume med. Assoc., 23, 13601378Google Scholar
Ono, N. (In Japanese, English summary in Helminth. Abstrs., 1902, 31, 403).Google Scholar
Shoho, C. and Nair, V. K. 1960.—“Studies of ccrebrospinal nematodiasis in Ceylon (VII). Experimental production of cerebrospinal nematodiasis by the inoculation of infective larvae of Setaria digitata into susceptible goats.” Ceylon vet. J., 8, 212.Google Scholar
Wharton, R. H. 1962.—“The biology of Mansonia mosquitoes in relation to the transmission of filariasis in Malaya.” Bull. Inst. med. Res. Malaya, No. 11, 114 pp.Google Scholar
Yeh, Liang-Sheng., 1959.—“A revision of the nematode genus Setaria Viborg, 1795, its host-parasite relationship, speciation and evolution.” J. Helminth., 33, 198.Google Scholar