Free Access
Ann. Limnol. - Int. J. Lim.
Volume 46, Number 3, 2010
Page(s) 191 - 197
Published online 16 August 2010
  • Abrous M., Rondelaud D., Dreyfuss G. and Cabaret J., 1999. Infection of Lymnaea truncatula and Lymnaea glabra by Fasciola hepatica and Paramphistomum daubneyi in farms of central France. Vet. Res., 30, 113–118. [Google Scholar]
  • Abrous M., Rondelaud D. and Dreyfuss G., 2000. A field study of natural infections in three freshwater snails with Fasciola hepatica and/or Paramphistomum daubneyi in central France. J. Helminthol., 74, 189–194. [Google Scholar]
  • Augot D., Abrous M., Rondelaud D. and Dreyfuss G., 1996. Paramphistomum daubneyi and Fasciola hepatica: the redial burden and cercarial shedding in Lymnaea truncatula submitted to successive unimiracidial cross-exposures. Parasitol. Res., 82, 623–627. [CrossRef] [PubMed] [Google Scholar]
  • Belfaiza M., Moncef M. and Rondelaud D., 2005. Fasciola hepatica: an unusual case of adaptation to a Moroccan population of Galba truncatula. Parasitol. Res., 95, 374–378. [Google Scholar]
  • Boray J.C., 1969. Experimental fascioliasis in Australia. Adv. Parasitol., 7, 95–210. [Google Scholar]
  • Boray J.C., 1978. The potential impact of exotic Lymnaea spp. on fascioliasis in Australasia. Vet. Parasitol., 4, 127–141. [Google Scholar]
  • Bouix-Busson D. and Rondelaud D., 1986. L'infestation de Lymnaea glabra Müller par Fasciola hepatica L. Étude expérimentale sur le terrain. Ann. Parasitol. Hum. Comp., 61, 215–225. [Google Scholar]
  • Boycott A.E., 1934. The habitats of land Mollusca in Britain. J. Ecol., 22, 1–38. [CrossRef] [Google Scholar]
  • Dreyfuss G., Moukrim A., Rondelaud D. and Vareille-Morel C., 1994. Several field observations concerning infection of Lymnaea palustris by Fasciola hepatica. J. Helminthol., 68, 115–118. [CrossRef] [PubMed] [Google Scholar]
  • Dreyfuss G., Vignoles P. and Rondelaud D., 2003. Natural infections of Omphiscola glabra with Fasciola hepatica in central France. Parasitol. Res., 91, 458–461. [CrossRef] [PubMed] [Google Scholar]
  • Dreyfuss G., Vignoles P. and Rondelaud D., 2005. Fasciola hepatica: epidemiological surveillance of natural watercress beds in central France. Parasitol. Res., 95, 278–282. [Google Scholar]
  • Dreyfuss G., Vignoles P. and Rondelaud D., 2007. Fasciola hepatica: the infectivity of cattle-origin miracidia had increased over the past years in central France. Parasitol. Res., 101, 1157–1160. [Google Scholar]
  • Gasnier N., Rondelaud D., Abrous M., Boulard C., Carreras F., Diez-Banos P. and Cabaret J., 2000. Allopatric combination of Fasciola hepatica and Lymnaea truncatula is more efficient than sympatric ones. Int. J. Parasitol., 30, 573–578. [Google Scholar]
  • Goumghar M.D., Dreyfuss G., Rondelaud D., Benlemlih M. and Cabaret J., 2001. More efficient allopatric combinations of Fasciola hepatica and Lymnaea truncatula due to modification of redial development? Parasitol. Res., 87, 1016–1019. [Google Scholar]
  • Guy F., Rondelaud D., Botineau M., Dreyfuss G. and Ghestem A., 1996. Étude de relations entre les plantes les plus fréquentes et l'abondance de Lymnaea truncatula Müller, vecteur de Fasciola hepatica Linné dans les prairies marécageuses sur sol acide. Rev. Méd. Vét. (Toul.), 147, 465–470. [Google Scholar]
  • Hotopp K.P., 2002. Land snails and soil calcium in central Appalachian Mountain forest. Southeast. Nat., 1, 27–44. [CrossRef] [Google Scholar]
  • Lively C.M. and Dybdahl M.F., 2000. Parasite adaptation to locally common host genotypes. Nature, 405, 679–681. [CrossRef] [PubMed] [Google Scholar]
  • Lively C.M., Dybdahl M.F., Jokela J., Osnas E.E. and Delph L.F., 2004. Host sex and local adaptation by parasites in a snail-trematode interaction. Am. Nat., 164, S6–S18. [Google Scholar]
  • Mage C., Bourgne H., Toullieu J.M., Rondelaud D. and Dreyfuss G., 2002. Fasciola hepatica and Paramphistomum daubneyi: changes in prevalences of natural infections in cattle and in Lymnaea truncatula from central France over the past 12 years. Vet. Res., 33, 439–447. [Google Scholar]
  • Muñoz-Antoli C., Marin A., Trelis M., Toledo R. and Esteban J.C., 2010. Sympatric and allopatric experimental infections of the planorbid snail Gyraulus chinensis with miracidia of Euparyphium albuferensis (Trematoda: Echinostomatidae). J. Helminthol., DOI: 10.1017/S0022149X10000143. [Google Scholar]
  • Prugnolle F., De Meeûs T., Pointier J.P., Durand P., Rognon A. and Théron A., 2006. Geographical variations in infectivity and susceptibility in the host-parasite system Schistosoma mansoni/Biomphalaria glabrata: no evidence of local adaptation. Parasitology, 133, 313–319. [CrossRef] [PubMed] [Google Scholar]
  • Rondelaud D., Vignoles P. and Dreyfuss G., 2003. Field observations on the aestivation of Omphiscola glabra (Gastropoda, Lymnaeidae) uninfected or infected with Fasciola hepatica in central France. Ann. Limnol. - Int. J. Lim., 39, 129–133. [CrossRef] [EDP Sciences] [Google Scholar]
  • Rondelaud D., Vignoles P., Dreyfuss G. and Mage C., 2006. The control of Galba truncatula (Gastropoda: Lymnaeidae) by the terrestrial snail Zonitoides nitidus on acid soils. Biol. Control, 39, 290–299. [Google Scholar]
  • Rondelaud D., Vignoles P. and Dreyfuss G., 2009. La Limnée tronquée, un mollusque d'intérêt médical et vétérinaire, PULIM, Limoges, 283 p. [Google Scholar]
  • Vadeboncoeur M.A., Hamburg S.P., Blum J.D. and Skeldon M.A., 2007. Terrestrial gastropod responses to an ecosystem-level calcium manipulation in a northern hardwood forest. Can. J. Zool., 9, 994–1007. [Google Scholar]
  • Vareille-Morel C., Dreyfuss G. and Rondelaud D., 1999. The characteristics of habitats colonized by three species of Lymnaea in swampy meadows on acid soil: their interest for fasciolosis control. Ann. Limnol. - Int. J. Lim., 35, 173–178. [CrossRef] [EDP Sciences] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.