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Lymnaea truncatula, intermediate host of some Plagiorchiidae and Notocotylidae species in León, NW Spain

Published online by Cambridge University Press:  05 June 2009

Y. Manga-González
Affiliation:
Unidad Estructural de Parasitología Animal, Estación Agrícola Experimental, Consejo Superior de Investigaciones Científicas (CSIC), Apd. 788, 24080 León, Spain
C. González-Lanza
Affiliation:
Unidad Estructural de Parasitología Animal, Estación Agrícola Experimental, Consejo Superior de Investigaciones Científicas (CSIC), Apd. 788, 24080 León, Spain
I. Kanev
Affiliation:
Institute of Parasitology, Bulgarian Academy of Sciences, Akad. G. Bontchev Str., Bl. 25, Sofia 1113, Bulgaria

Abstract

To study the distribution of Lymnaea truncatula in the Porma river basin (León, NW Spain) and its helminth fauna, malacological samplings were carried out at 66 points in the basin and the presence of these molluscs was detected in 31. To trace the dynamics of this mollusc population and the prevalence and intensity of its infection by trematodes, malacological samplings were made at fortnightly intervals over two years at five locations, situated in the upper and middle regions of the river Porma basin. To confirm the identity of the larval stages found in the molluscs, second intermediate and/or definitive hosts, depending on the trematode species, were experimentally infected to complete the life cycles. Two different species of Plagiorchiidae and one of Notocotylidae were identified. The infection prevalence of Plagiorchis elegans for the 6291 specimens of L. truncatula examined was 2.8% and infection was observed in snails collected in 7 of the 31 sample localities. This parasite was found in all months of the year, with the highest prevalence observed in July and October. When the corrected frequency values were considered, a slightly positive relationship was observed between the infection prevalence and the latter months. The highest percentages of snails harbouring immature sporocysts were detected in March and June–July, while the highest percentages with sporocysts containing mature cercariae were observed in spring and at the end of summer–autumn, and cercarial shedding in the latter. Of the 6291 L. truncatula examined 0.3% were infected by sporocysts of Opisthioglyphe ranae. The infection was detected in only one locality, in four months of the year, with the highest prevalence in May. Notocotylus neyrai was found in 2.6% of the 6291 mollusc specimens checked and was collected from 12 of the 31 localities. The highest prevalence was observed in October, April and July and the corrected frequency values reveal a positive relationship between the infection prevalence and those three months. The highest percentage of molluscs harbouring rediae of N. neyrai with germinal mass was found in April and September–October. On the other hand, rediae with mature cercariae were present in almost every month, but we only observed cercarial shedding in October and March. The L. truncatula infection prevalence by P. elegans, O. ranae and N. neyrai increased with the size of the molluscs. Double infection was only observed in four snails: one harboured O. ranae and N. neyrai and three F. hepatica and P. elegans.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 1994

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References

Bock, D. (1984) The life cycle of Plagiorchis spec. 1, a species of the Plagiorchis elegans group (Trematoda, Plagiorchiidae). Zeitschrift für Parasitenkunde 70, 359373.CrossRefGoogle Scholar
Budalova, T.M. (1986) (Lymnaea truncatula, the intermediate host of trematode parasites of Rana temporaria). Byulleten Vsesoyuznogo Instituta Gel'mintologii im. K.I. Skryabina 43, 66.Google Scholar
Climent, M.T., Feliu, C., Esteban, J.G. & Mas-Coma, S. (1987) Estudio de las helmintofaunas de las especies ibéricas de Arvicólidos (Rodentia) según la naturaleza de los ciclos biológicos de los parásitos. Resúmenes de comunicaciones y conferencias. V Congreso Nacional de Parasitología.Salamanca29 Sep.–2 Oct., 215.Google Scholar
Combes, C. & Gerbeux, M.T. (1970) Recherches écoparasitologiques sur l'helminthofaune de Rana ridibunda perezi (Amphibien, Anoure) dans l'est des Pyrénées. Vie et Milieu 21, 121.Google Scholar
Dimitrov, V., Busta, J. & Kanev, I. (1989) Chaetotaxy of cercariae of Opisthioglyphe ranae (Frölich, 1791) (Trematoda: Plagiorchidae). Folia Parasitologica 36, 265274.Google ScholarPubMed
Genov, T. & Samnaliev, p. (1984) Biology, morphology and taxonomy of Plagiorchis elegans (Rudolphi, 1802) (Plagiorchidae) in Bulgaria. pp. 75114in Vassilev, I. (Ed.) Fauna, taksonomiya i ekologiya na khelminti po ptitsi. Sofia, Bulgaria; B″Igarskata Akademiya na Naukite.Google Scholar
González-Castro, J. (1945) Notocotylus neyrai n. sp. parásito cecal del Arvicola sapidus. Revista lbérica de Parasitología 5, 127149.Google Scholar
González-Lanza, C., Manga-González, Y., Del-Pozo, P. & Hidalgo, R. (1989) Dynamics of Fasciola hepatica (Trematoda, Digenea) egg elimination in the faeces of cattle in the Porma basin (León, Spain). Veterinary Parasitology 34, 3543.CrossRefGoogle ScholarPubMed
Grabda-Kazubska, B. (1969) Studies on abbreviation of the life cycle in Opisthioglyphe ranae (Frölich, 1791) and O. rastellus (Olsson, 1876) (Trematoda: Plagiorchiidae). Acta Parasitologica Polonica 16, 249269.Google Scholar
Hourdin, P., Moukrim, A. & Rondelaud, D. (1991) L'infestation naturelle de Lymnaea truncatula Müller par Haplometra cylindracea Zeder et Notocotylus sp: a propos de quelques observations de terrain. Revue de Médicine Vétérinaire 142, 139142.Google Scholar
Kanev, I. (1985) (On the morphology, biology, ecology and taxonomy of Echinostoma revolutum group (Trematoda: Echinostomatidae: Echinostoma). Diss. Thesis, Bulgarian Academy of Sciences, Sofia, 467 pp.Google Scholar
Kiseliene, V. (1963) ((On the infections of freshwater snails with larval parasites)). pp. 139140in Scientific Conference,VOG,Moscow, Part I.Google Scholar
Manga-González, Y., González-Lanza, C., Del-Pozo, P. & Hidalgo, R. (1990) Kinetics of Fasciola hepatica egg passage in the faeces of sheep in the Porma basin, NW Spain. Acta Parasitologica Polonica 35, 6977.Google Scholar
Manga-González, Y., González-Lanza, C. & Otero-Merino, C.B. (1991) Natural infection of Lymnaea truncatula by the liver fluke Fasciola hepatica in the Porma basin, León, NW Spain. Journal of Helminthology 65, 1527.CrossRefGoogle ScholarPubMed
Merényi, L. (1978) Néhány közvetett fejlódésü métely puhatestü köztigazdája. Soosiana 6, 916.Google Scholar
Moukrim, A. & Rondelaud, D. (1992) Evolution de la charge parasitaire chez Lymnaea truncatula Müller infesté par Haplometra cylindracea Müller Zeder et Fasciola sp. Bulletin de la Société Française de Parasitologie 10, 4350.Google Scholar
Odening, K. & Samnaliev, P. (1987) A new amphistome cercaria from Lymnaea truncatula in Europe. Annales de Parasitologie Humaine et Comparée 62, 117121.CrossRefGoogle Scholar
Palm, V. (1966) Die Zerkarienfauna der Süsswasserschnecken aus dem Gebiet von Kleinmachnow bei Potsdam Teil II. Xiphidiozerkarien. Angewandte Parasitologie 7, 8198.Google Scholar
Samnaliev, P. & Vassilev, I. (1981) Development of Paramphistomum microbothrioides Price and McIntosh, 1944 in Lymnaea (Galba) truncatula. Helminthology 11, 6269.Google Scholar
Samnaliev, P., Dimitrov, V. & Genov, T. (1982) Chaetotaxy of Plagiorchis elegans (Rud., 1802) cercariae. Helminthologia 19, 107114.Google Scholar
Samnaliev, P., Kanev, I. & Vassilev, I. (1978) Interactions between larval and parthenite stages of some trematodes in one and the same intermediate host. Proceedings of the fourth International Congress of Parasitology,19–26 August,Warszawa, Section A, 4546.Google Scholar
Simon-Vicente, F. (1979) Trematodos larvarios y sus moluscos hospedadores en Salamanca. Revista Ibérica de Parasitología 39, 241250.Google Scholar
Simon-Vicente, F. & Ramajo-Martin, V. (1978) Larval trematodes and its in points of a Spanish Province. Proceedings of the fourth International Congress of Parasitology,19–26 August,Warszawa, Section H, 948.Google Scholar
Simon-Vicente, F., Mas-Coma, S., Lopez-Roman, R., Tenora, F. & Gallego, J. (1985) Biology of Notocotylus neyrai Gonzalez Castro, 1945 (Trematoda). Folia Parasitologica 32, 101111.Google Scholar
Skovronskii, R.V. (1985) (Lymnaea truncatula—first and second intermediate host of Echinostoma revolutum and Hypoderaeum conoideum). Parazitologiya 19, 323324.Google ScholarPubMed
Vassilev, I. & Kamburov, P. (1972) (Studies on the ecology of echinostomatids found in domestic fowl in Bulgaria). Bulletin of the Central Helminthological Laboratory 15, 3348.Google Scholar