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Larval productivity of Fasciola gigantica in two lymnaeid snails

Published online by Cambridge University Press:  12 April 2024

Y. Dar ,
P. Vignoles ,
D. Rondelaud  and
G. Dreyfuss
Y. Dar
Affiliation:
Department of Zoology, Faculty of Science, University of Tanta, Tanta, Egypt UPRES EA no. 3174, Faculties of Medicine and Pharmacy, 87025, Limoges, France
P. Vignoles
Affiliation:
UPRES EA no. 3174, Faculties of Medicine and Pharmacy, 87025, Limoges, France
D. Rondelaud*
Affiliation:
UPRES EA no. 3174, Faculties of Medicine and Pharmacy, 87025, Limoges, France
G. Dreyfuss
Affiliation:
UPRES EA no. 3174, Faculties of Medicine and Pharmacy, 87025, Limoges, France
*
*Fax: 33-555-435893, Email: [email protected]
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Abstract

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Two groups of Galba truncatula and two groups of Lymnaea natalensis were experimentally infected with Fasciola gigantica to determine if snail species had an influence on the redial burden and cercarial shedding of this trematode when snails of both species were infected with the same isolate of miracidia. In the two groups used for the study of redial burden, the total number of free rediae was significantly higher at day 49 post-exposure in L. natalensis than in G. truncatula. In the groups used for cercarial shedding, the life-span of cercaria-shedding snails and those of infected snails which died without cercarial emission, and the duration of the prepatent period were significantly longer in L. natalensis than those noted in G. truncatula. However, the mean numbers of shed cercariae did not significantly differ and showed no differences in their daily distribution throughout the shedding period. These results demonstrate that G. truncatula might be the principal intermediate host of F. gigantica in Egypt, at least in the areas where this lymnaeid species lives.

Type
Review Article
Information
Journal of Helminthology , Volume 78 , Issue 3 , September 2004 , pp. 215 - 218
Copyright
Copyright © Cambridge University Press 2004

References

Ahmed, A.H. & Ramzy, R.M. (1999) Infection of two lymnaeid snails with Fasciola gigantica in Giza, a field study. Journal of the Egyptian Society of Parasitology 29, 687696.Google Scholar
Al-Kubaisee, R.Y. & Altaif, K.I. (1989) Comparative study of sheep and buffalo isolates of Fasciola gigantica in the intermediate host Lymnaea auricularia . Research in Veterinary Science 47, 273274.CrossRefGoogle ScholarPubMed
Bitakaramire, P.K. (1968) Lymnaea natalensis laboratory culture and production of Fasciola gigantica metacercariae. Parasitology 58, 653656.CrossRefGoogle ScholarPubMed
Boray, J.C. (1969) Experimental fascioliasis in Australia. Advances in Parasitology 7, 95210.CrossRefGoogle ScholarPubMed
Brown, D.S. (1994) Freshwater snails of Africa and their medical importance. 2nd edn. 608 pp. London, Taylor and Francis Ltd. CrossRefGoogle Scholar
Cheruiyot, H.K. & Wamae, I.W. (1990) Distribution of the metacercariae of Fasciola gigantica on some objects in the laboratory. Bulletin of Animal Health and Production in Africa 38, 139142.Google Scholar
Da Costa, C., Dreyfuss, G., Rakotondravao, & Rondelaud, D. (1994) Several observations concerning cercarial sheddings of Fasciola gigantica from Lymnaea natalensis . Parasite 1, 3944.CrossRefGoogle ScholarPubMed
Dar, Y., Vignoles, P., Rondelaud, D. & Dreyfuss, G. (2002) Fasciola gigantica: the growth and larval productivity of redial generations in the snail Lymnaea truncatula . Parasitology Research 88, 364367.CrossRefGoogle ScholarPubMed
Dar, Y., Vignoles, P., Rondelaud, D. & Dreyfuss, G. (2003) Fasciola gigantica: larval productivity of three different isolates of the parasite in Lymnaea truncatula snails. Journal of Helminthology 77, 1114.CrossRefGoogle Scholar
Dinnik, J.A. & Dinnik, N.N. (1956) Observations on the succession of redial generations of Fasciola gigantica Cobbold in a snail host. Tropenmedizin und Parasitologie 7, 397419.Google Scholar
Dreyfuss, G. & Rondelaud, D. (1997) Fasciola gigantica and F. hepatica: a comparative study of some characteristics of Fasciola infection in Lymnaea truncatula infected by either of the two trematodes. Veterinary Research 28, 123130.Google Scholar
El-Shazly, A.M., Helmy, M.M., Haridy, F.M., El-Sharkawy, E.M. & Morsy, T.A. (2002) Fasciola immature stages sought in Lymnaea species and Biomphalaria species in the water bodies of Dakahlia Governorate. Journal of the Egyptian Society of Parasitology 32, 109118.Google ScholarPubMed
Farag, H.F. (1998) Human fascioliasis in some countries of eastern Mediterranean region. Eastern Mediterranean Health Journal 4, 156160.CrossRefGoogle Scholar
Farag, H.F. & El-Sayad, M.H. (1995) Biomphalaria alexandrina naturally infected with Fasciola gigantica in Egypt. Transactions of the Royal Society of Tropical Medicine and Hygiene 89, 36.CrossRefGoogle ScholarPubMed
Guralp, N., Ozcan, C. & Simms, B.T. (1964) Fasciola gigantica and fascioliasis in Turkey. American Journal of Veterinary Research 25, 196210.Google Scholar
Mohamed, S.H., Mostafa, O.M. & Mohammad, A.H. (1998) Susceptibility of some pulmonate snails to the infection with Fasciola spp. from various mammalian hosts. Journal of the Union of Arab Biologists 10, 2944.Google Scholar
Ollerenshaw, C.B. (1971) Some observations on the epidemiology of fascioliasis in relation to the timing of molluscicide application in the control of the disease. Veterinary Record 88, 152164.CrossRefGoogle Scholar
Rakotondravao, , Moukrim, A., Hourdin, P. & Rondelaud, D. (1992) Redial generations of Fasciola gigantica in the pulmonate snail Lymnaea truncatula . Journal of Helminthology 66, 159166.CrossRefGoogle ScholarPubMed
Rondelaud, D. & Barthe, D. (1987) Fasciola hepatica, L.: étude de la productivité d'un sporocyste en fonction de la taille de Lymnaea truncatula . Parasitology Research 74, 155160.CrossRefGoogle Scholar
Spithill, T.W., Smooker, P.M. & Copeman, D.B. (1999) Fasciola gigantica: epidemiology, control, immunology, and molecular biology. pp. 465525 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Stat-Itcf, (1988) Manuel d'utilisation. 210 pp. Institut technique des céréales et des fourrages, Service des études statistiques, Boigneville, France.Google Scholar
Vignoles, P., Dreyfuss, G. & Rondelaud, D. (2002) The redial growth and cercarial productivity of Fasciola hepatica in three species of young lymnaeid snails. Journal of Helminthology 76, 269272.CrossRefGoogle ScholarPubMed
Zischke, J.A. (1967) Redial populations of Echinostoma revolutum developing in snails of different sizes. Journal of Parasitology 53, 12001204.CrossRefGoogle ScholarPubMed