Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-13T00:38:56.660Z Has data issue: false hasContentIssue false

Hosts and parasites as aliens

Published online by Cambridge University Press:  12 April 2024

H. Taraschewski*
Affiliation:
Zoologisches Institut I, Ökologie-Parasitologie, Universität Karlsruhe, Kornblumenstrasse 13, 76128, Karlsruhe, Germany
*
* Fax: +49 721 608 7655, E-mail: dc20@rz.uni-karlsruhe.de
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Over the past decades, various free-living animals (hosts) and their parasites have invaded recipient areas in which they had not previously occurred, thus gaining the status of aliens or exotics. In general this happened to a low extent for hundreds of years. With variable frequency, invasions have been followed by the dispersal and establishment of non-indigenous species, whether host or parasite. In the literature thus far, colonizations by both hosts and parasites have not been treated and reviewed together, although both are usually interwoven in various ways. As to those factors permitting invasive success and colonization strength, various hypotheses have been put forward depending on the scientific background of respective authors and on the conspicuousness of certain invasions. Researchers who have tried to analyse characteristic developmental patterns, the speed of dispersal or the degree of genetic divergence in populations of alien species have come to different conclusions. Among parasitologists, the applied aspects of parasite invasions, such as the negative effects on economically important hosts, have long been at the centre of interest. In this contribution, invasions by hosts as well as parasites are considered comparatively, revealing many similarities and a few differences. Two helminths, the liver fluke, Fasciola hepatica, of cattle and sheep and the swimbladder nematode, Anguillicola crassus, of eels are shown to be useful as model parasites for the study of animal invasions and environmental global change. Introductions of F. hepatica have been associated with imports of cattle or other grazing animals. In various target areas, susceptible lymnaeid snails serving as intermediate hosts were either naturally present and/or were introduced from the donor continent of the parasite (Europe) and/or from other regions which were not within the original range of the parasite, partly reflecting progressive stages of a global biota change. In several introduced areas, F. hepatica co-occurs with native or exotic populations of the congeneric F. gigantica, with thus far unknown implications. Over the fluke's extended range, in addition to domestic stock animals, wild native or naturalized mammals can also serve as final hosts. Indigenous and displaced populations of F. hepatica, however, have not yet been studied comparatively from an evolutionary perspective. A. crassus, from the Far East, has invaded three continents, without the previous naturalization of its natural host Anguilla japonica, by switching to the respective indigenous eel species. Local entomostrac crustaceans serve as susceptible intermediate hosts. The novel final hosts turned out to be naive in respect to the introduced nematode with far reaching consequences for the parasite's morphology (size), abundance and pathogenicity. Comparative infection experiments with Japanese and European eels yielded many differences in the hosts' immune defence, mirroring coevolution versus an abrupt host switch associated with the introduction of the helminth. In other associations of native hosts and invasive parasites, the elevated pathogenicity of the parasite seems to result from other deficiencies such as a lack of anti-parasitic behaviour of the naïve host compared to the donor host which displays distinct behavioural patterns, keeping the abundance of the parasite low. From the small amount of available literature, it can be concluded that the adaptation of certain populations of the novel host to the alien parasite takes several decades to a century or more. Summarizing all we know about hosts and parasites as aliens, tentative patterns and principles can be figured out, but individual case studies teach us that generalizations should be avoided.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2006

References

Agatsuma, T., Arakawa, Y., Iwagami, M., Honzako, Y., Cahyaningsih, U., Kang, S.Y. & Hong, S.J. (2000) Molecular evidence of natural hybridization between Fasciola hepatica and F. gigantica . International Journal for Parasitology 49, 231238.CrossRefGoogle ScholarPubMed
Akahane, H., Harada, Y. & Oshima, T. (1970) Pattern of variation of the common liver fluke (Fasciola sp.) in Japan III. Comparative studies on the external form, size of egg and number of eggs in the uterus of fluke in cattle, goat and rabbit. Japanese Journal of Parasitology 19, 619627.Google Scholar
Amin, O.M. (1985) Classification. pp. 2772 in Crompton, D.W.T. & Nickol, B.B. (Eds) Biology of the Acanthocephala. Cambridge, Cambridge University Press.Google Scholar
Anderson, D.L. & Truman, J.W. (2000) Varroa jacobsoni (Acari: Varroidae) is more than one species. Experimental and Applied Acarology 3, 165189.CrossRefGoogle Scholar
Anderson, R.M. & May, R.M. (1991) Infectious diseases of humans, dynamics and control. 757 pp. Oxford, Oxford University Press.CrossRefGoogle Scholar
%Andrews, S.J. (1999) The life cycle of Fasciola hepatica. pp. 129 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Aoyama, J., Watanabe, S., Miiyai, T., Sasai, S., Nishida, M. & Tsukamoto, K. (2000) The European eel Anguilla anguilla (L.), in Japanese waters. Dana 12, 15.Google Scholar
Aoyama, J., Nishida, M. & Tsukamoto, K. (2001) Molecular phylogeny and evolution of the freshwater eel genus Anguilla . Molecular Phylogenetics and Evolution 20, 450459.CrossRefGoogle ScholarPubMed
Appelbaum, S. & Hurvitz, A. (2000) Eel farming in Israel, pp. 1213 in Proceedings of the Third East Asian Symposium on Eel Research – sustainability of resources and aquaculture of eels, March 16–18, Keelung, Taiwan.Google Scholar
Ashworth, S.T. & Kennedy, C.R. (1999) Density-dependent effects on Anguillicola crassus (Nematoda) within its European eel definitive host. Parasitology 118, 289296.CrossRefGoogle ScholarPubMed
Audenaert, V., Huyse, T., Goemans, G., Belpair, C. & Volckaert, F.A.M. (2003) Spatio-temporal dynamics of the parasitic nematode Anguillicola crassus in Flanders, Belgium. Diseases of Aquatic Organisms 56, 223233.CrossRefGoogle ScholarPubMed
Baldock, F.C. & Arthur, R.J. (1985) A survey of fascioliasis in beef cattle killed at ababttoirs in southern Queensland. Australian Veterinary Journal 62, 324326.CrossRefGoogle ScholarPubMed
Bargues, M.D., Horák, P., Patzner, R.A., Pointier, J.P., Jackiewicz, M., Meier-Brook, C. & Mas-Coma, S. (2003) Insights into the relationships of Palaearctic and Nearctic lymnaeids (Mollusca: Gastropoda) by rDNA ITS-2 sequencing and phylogeny of stagnicoline intermediate host species of Fasciola hepatica . Parasite 10, 243255.CrossRefGoogle ScholarPubMed
Barse, A.M. & Secor, D.H. (1999) An exotic nematode parasite of the American eel. Fisheries 24, 610.2.0.CO;2>CrossRefGoogle Scholar
Barse, A.M., McGuire, S.A., Vinores, M.A., Elermann, L.E. & Weeder, J.A. (2001) The swimbladder nematode Anguillicola crassus in American eels (Anguilla rostrata) from middle and upper regions of Chesapeake Bay. Journal of Parasitology 87, 13661370.CrossRefGoogle ScholarPubMed
Barton, D.P. (1997) Introduced animals and their parasites: the cane toad, Bufo marinus, in Australia. Australian Journal of Ecology 22, 316324.CrossRefGoogle Scholar
Beauchamp, K.A., Kelly, G.O., Nehring, R.B., Barry, R. & Hedrick, R.P. (2005) The severity of whirling disease among wild trout corresponds to the differences in genetic composition of Tubifex tubifex populations in central Colorado. Journal of Parasitology 91, 5360.CrossRefGoogle Scholar
Behm, C.A. & Sangster, N.C. (1999) Pathology, pathophysiology and clinical aspects. pp. 185224 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Belfaiza, M., Rondelaud, D., Moncef, M. & Dreyfuss, G. (2004) Fasciola hepatica: cercarial productivity of redial generations in long-surviving Galba truncatula . Journal of Helminthology 78, 115120.CrossRefGoogle ScholarPubMed
Ben Ami, F. & Heller, J. (2005) Spatial and temporal patterns of parthenogenesis and parasitism in the freshwater snail Melanoides tuberculata . Journal of Evolutionary Biology 18, 138146.CrossRefGoogle ScholarPubMed
Bij de Vaate, A., Jazdzewski, K., Ketelaars, H.A.M., Gollasch, S. & Van der Velde, G. (2002) Geographic pattern in range extensions of Ponto-Caspian macroinvertebrate species in Europe. Canadian Journal of Fisheries and Aquatic Sciences 59, 11591174.CrossRefGoogle Scholar
Blanc, G. (2001) Introduction of pathogens in European aquatic ecosystems: attempt of evaluation and realities, pp. 3756 in Uriate, A. & Basurco, B. (Eds) Environmental impact assessment of Mediterranean aquaculture farms. Zaragoza, CIHEAM-IMAZ.Google Scholar
Boomker, J., Huchzermeyer, F.W. & Naude, T.W. (1980) Bothriocephalosis in the common carp in the eastern Transvaal. Journal of the South African Veterinary Association 51, 263264.Google ScholarPubMed
Boot, W.J., Calis, J.N.M., Beetsma, J., Hai, D.M., Lan, N.K., Toam, T.V., Trung, L.Q. & Mink, N.H. (1999) Natural selection of Varroa jacobsoni explains the different reproductive strategies in colonies of Apis cerana and Apis mellifera . Experimental and Applied Acarology 23, 133144.CrossRefGoogle Scholar
Boray, J.C. (1978) The potential impact of exotic Lymnaea spp. on fascioliasis in Australia. Veterinary Parasitology 4, 127141.CrossRefGoogle Scholar
Boray, J.C., Fraser, G.C., Williams, J.D. & Wilson, J.M. (1985) The occurance of the snail Lymnaea columella on grazing areas in New South Wales and studies on its susceptibility to Fasciola hepatica . Australian Veterinary Journal 62, 46.CrossRefGoogle Scholar
Bowman, D.D., Ulrich, M.A., Gregory, D.E., Neumann, N.R., Legg, W. & Stansfield, D. (2005) Treatment of Baylisascaris procyonis in dogs with milbemycin oxime. Veterinary Parasitology 129, 285290.CrossRefGoogle ScholarPubMed
Brouder, M.J. & Hoffnagle, T.L. (1997) Distribution and prevalence of the Asian fish tapeworm Bothriocephalus acheilognathi in the Colorado River and tributaries. Grand Canyon, Arizona, including two new host records. Journal of the Helminthological Society of Washington 64, 219226.Google Scholar
Brown, J.H. (1989) Patterns, modes and extents of invasions by vertebrates. pp. 85110 in Drake, J.A., Mooney, H.A., di Castri, F., Groves, R.H., Kruger, F.J., Rejmánek, M. & Williamson, M. (Eds) Biological invasions: a global perspective. Chichester, John Wiley and Sons Ltd. Google Scholar
Buchmann, K., Mellergaard, S. & Køie, M. (1987) Pseudodactylogyrus infections in eel: a review. Diseases of Aquatic Organisms 3, 5157.CrossRefGoogle Scholar
Caliences, A.F., Fraga, J., Pointier, J.P., Yong, M., Sanchez, J., Cousteau, C., Gutiérrez, A. & Théron, A. (2004) Detection and genetic distance of resistant populations of Pseudosuccinea columella (Mollusca: Lymnaeidae) to Fasciola hepatica (Trematoda: Digenea) using RAPD markers. Acta Tropica 92, 8387.CrossRefGoogle Scholar
Canete, R., Young, M., Sanchez, J., Wong, L. & Gutiérrez, A. (2004) Population dynamics of intermediate snail hosts of Fasciola hepatica and some environmental factors in Juan y Martinez municipality, Cuba. Memorias do Instituto Oswaldo Cruz 99, 257262.CrossRefGoogle Scholar
Carnevia, D. & Speranza, G. (2003) First report of Lernaea cyprinacea in Uruguay, introduced by goldfish Carassius auratus, L., 1758 and affecting axolotl Ambystoma mexicanum Shaw, 1798. Bulletin of the European Association of Fish Pathologists 23, 255256.Google Scholar
Charbonnel, N., Angers, B., Rasatavonjizay, R., Bremond, P., Debain, C. & Jarne, P. (2002) The influence of mating system, demography, parasites and colonization on the population structure of Biomphalaria pfeifferi in Madagascar. Molecular Ecology 11, 22132228.CrossRefGoogle ScholarPubMed
Choudhury, A., Hoffnagle, T.L. & Cole, R.A. (2004) Parasites of native and non-native fishes of the Little Colorado River. Grand Canyon, Arizona. Journal of Parasitology 90, 10421053.CrossRefGoogle Scholar
Chown, S.L. & Gaston, K.J. (2000) Island-hopping invaders hitch a ride with tourists in the Southern Ocean. Nature 408, 637.CrossRefGoogle Scholar
Chubb, J.C. & Yeomans, W.E. (1995) Khawia sinensis Hsü, 1935 (Cestoda: Caryophyllidea), a tapeworm new to the British Isles: a threat to carp fisheries? Fisheries Management and Ecology 2, 263277.CrossRefGoogle Scholar
Ciccotti, E., & Fontenelle, G. (2000). Aquaculture of European eel (Anguilla anguilla) in Europe: a review. pp. 911 in Proceedings of the Second East Asian Symposium on eel research – substainability of resources and aquaculture of eels. November 16–18, Keelung, Taiwan.Google Scholar
Coelho, L.H. & Lima, W.S. (2003) Population dynamics of Lymnaea columella and its natural infection by Fasciola hepatica in the state of Minas Gerais, Brazil. Journal of Helminthology 77, 710.CrossRefGoogle ScholarPubMed
Cone, D.K. & Marcogliese, D.J. (1995) Pseudodactylogyrus anguillae on Anguilla rostrata in Nova Scotia: an endemic or an introduction? Journal of Fish Biology 47, 177178.Google Scholar
Cone, D.K., Marcogliese, D.J. & Watt, W.D. (1993) Metazoan parasite communities of yellow eels (Anguilla rostrata) in acidic and limed rivers of Nova Scotia. Canadian Journal of Zoology 71, 177184.CrossRefGoogle Scholar
Cowie, R.H. (1997) Catolog and bibliography of the nonindigenous nonmarine snails and slugs of the Hawaiian Islands. Bishop Museum: Occasional Papers 50, 166.Google Scholar
Cribb, T.H., Mockler, S.P. & Lintermans, M. (1997) The Asian fish tapeworm, Bothriocephalus acheilognathi, in Australian freshwater fishes. Marine and Freshwater Research 48, 181183.Google Scholar
Cruz-Mendoza, J., Figueroa, J.A., Correa, D., Ranis-Martinez, E., Lecumberri-Lopez, J. & Qurioz-Romero, H. (2004) Dynamics of Fasciola hepatica infection in two species of snails in a rural locality of Mexico. Veterinary Parasitology 121, 8793.CrossRefGoogle Scholar
Dar, Y., Rondelaud, D. & Dreyfuss, G. (2003a) Cercarial shedding from Galba truncatula infected with Fasciola gigantica of distinct geographic origins. Parasitology Research 89, 185187.CrossRefGoogle ScholarPubMed
Dar, Y., Vignoles, P., Rondelaud, D. & Dreyfuss, G. (2003b) Fasciola gigantica: larval productivity of three different miracidial isolates in the snail Lymnaea truncatula. Journal of Helminthology 77, 1114.CrossRefGoogle ScholarPubMed
Dar, Y., Vignoles, P. & Dreyfuss, G. (2004) Larval productivity of Fasciola gigantica in two lymnaeid snails. Journal of Helminthology 78, 215218.CrossRefGoogle ScholarPubMed
De Kock, K.N., Joubert, P.H. & Pretorius, S.J. (1989) Geographical distribution and habitat preferences of the invader freshwater snail species Lymnaea columella (Mollusca: Gastropoda) in South Africa. Onderstepoort Journal of Veterinary Research 56, 271275.Google ScholarPubMed
De Kock, K.N., Wolmarans, C.T. & Bornman, M. (2003) Distribution and habitats of the snail Lymnaea truncatula, intermediate host of the liver-fluke Fasciola hepatica, in South Africa. Journal of the South African Veterinary Association 74, 117122.CrossRefGoogle ScholarPubMed
Dermott, R. (1998) Distribution of the Ponto-Caspian amphipod Echinogammarus ischnus in the Great Lakes and replacement of native Gammarus fasciatus . Journal of the Great Lakes Research 24, 442452.CrossRefGoogle Scholar
Devin, S., Piscart, C., Beisel, J.N. & Moreteau, J.C. (2004) Life history traits of the invader Dikerogammarus villosus (Crustacea: Amphipoda) in the Moselle River, France. International Review of Hydrobiology 89, 2134.CrossRefGoogle Scholar
Dick, J.T.A. & Platvoet, D. (2000) Invading predatory crustacean (Dikerogammarus villosus) eliminates both native and exotic species. Proceedings of the Royal Society of London, B 267, 977983.CrossRefGoogle ScholarPubMed
Dietz, A. & Vergara, C. (1995) Africanized honey bees in temperate zones. Bee World 76, 5671.CrossRefGoogle Scholar
Dove, A.D.M., Cribb, T.H., Mockler, S.P. & Lintermans, M. (1997) The Asian fish tapeworm, Bothriocephalus acheilognathi, in Australian freshwater fishes. Marine and Freshwater Research 48, 181183.CrossRefGoogle Scholar
Dunkel, A.M., Rognlie, M.C., Johnson, G.R. & Knapp, S.E. (1996) Distribution of potential intermediate hosts of Fasciola hepatica and Fascioloides magna in Montana, USA. Veterinary Parasitology 62, 6370.CrossRefGoogle ScholarPubMed
Durham, B.W., Bonner, T.H. & Wilde, G.R. (2002) Occurrence of Lernaea cyprinacea on Arkansas river shiners and peppered chubs in the Canadian river, New Mexico and Texas. Southwestern Naturalist 47, 9598.CrossRefGoogle Scholar
Dzika, E. (1999) Microhabitats of Pseudodactylogyrus anguillae and P. bini (Monogenea: Dactylogyridae) on the gills of large-size European eel Anguilla anguilla from Lake Gaj, Poland. Folia Parasitologica 46, 3336.Google Scholar
Egusa, S. (1979) Notes on the culture of the European eel (Anguilla anguilla, L.) in Japanese eel-farming ponds. Rapports et Procès-Verbaux des Réunions. Conseil International pour l'Éxploration de la Mer 174, 5158.Google Scholar
Ehrlich, P.R. (1989) Attributes of invaders and the invading processes: vertebrates. pp. 315328 in Drake, J.A., Mooney, H.A., di Castri, F., Groves, R.H., Kruger, F.J., Rejmánek, M. & Williamson, M. (Eds) Biological invasions: a global perspective. Chichester, John Wiley and Sons Ltd. Google Scholar
El Hilali, M., Yahyooui, A., Sadak, A., Maachi, M. & Taghy, Z. (1996) Premières données épidémiologiques sur anguillicolose au Maroc. Bulletin Français de la Pêche et de Pisciculture 340, 5760.CrossRefGoogle Scholar
El-Matbouli, M., Oucible, A., Dörfler, C. & Knaus, M. (2005) Detection of wild rainbow trout resistant to whirling disease. Proceedings of the 11th Annual Whirling Disease Symposium, February 3–4, Denver, Colorado, USA.Google Scholar
Esch, G.W., Bush, A.O. & Aho, J.M. (1990) Parasite communities: pattern and processes. 333 pp. London, New York, Chapman and Hall.Google Scholar
Esteban, J.G., Flores, A., Angeles, R. & Mas-Coma, S. (1999) High endemicity of human fascioliasis between Lake Titicaca and La Paz valley, Bolivia. Transactions of the Royal Society of Tropical Medicine and Hygiene 93, 151156.CrossRefGoogle Scholar
Estrada-Peña, A. (2002) A simulation model for environmental population densities, survival rates and prevalence of Boophilus decoloratus (Acari: Ixodidae) using remotely sensed environmental information. Veterinary Parasitology 104, 5178.CrossRefGoogle ScholarPubMed
Falcon, B., Pointier, J.P., Glaubrecht, M., Poux, C., Jarne, P. & David, P. (2003) A molecular phylogeography approach to biological invasions of the New World by parthenogenetic thiarid snails. Molecular Ecology 12, 30273039.CrossRefGoogle Scholar
Fairweather, I. & Boray, J.C. (1999) Mechanisms of fasciolicide action and drug resistance in Fasciola hepatica. pp. 225276 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Faull, B.W. (1987) Bovine fascioliasis in the Manawatu; epidemiology and farmer awareness. New Zealand Veterinary Journal 35, 7274.CrossRefGoogle ScholarPubMed
Fuentes, M.V., Coelho, J.R. & Bargues, M.D. (1997) Small mammals (Lagomorpha and Rodentia) and fascioliasis transmission in the northern Bolivian Altiplano endemic zone. Research and Reviews in Parasitology 57, 115121.Google Scholar
Galil, B.S. & Zenetos, A. (2002) A sea change–exotics in the eastern Mediterranean. pp. 119 in Leppäkoski, E., Gollasch, S. & Olenin, S. (Eds) Invasive aquatic species of Europe: distributions, impacts and management. Dordrecht, Kluwer Academic.Google Scholar
Gavin, P., Kazacos, K.R. & Shulman, S.T. (2005) Baylisascariasis. Clinical Microbiology Reviews 18, 703718.CrossRefGoogle ScholarPubMed
Geets, A., Liewes, A.W. & Ollevier, F. (1992) Efficacy of some anthelmintics against the swimbladder nematode Anguillicola crassus of eel Anguilla anguilla under saltwater conditions. Diseases of Aquatic Organisms 13, 123128.CrossRefGoogle Scholar
Gollock, M.J., Kennedy, C.R., Quabius, E.S. & Brown, J.A. (2004) The effect of parasitism of European eels with the nematode Anguillicola crassus on the impact of netting and aerial exposure. Aquaculture 233, 4554.CrossRefGoogle Scholar
Gollock, M.J., Kennedy, C.R. & Brown, J.A. (2005a) Physiological response to acute temperature increase in European eels Anguilla anguilla infected with Anguillicola crassus . Diseases of Aquatic Organisms 64, 223228.CrossRefGoogle ScholarPubMed
Gollock, M.J., Kennedy, C.R. & Brown, J.A. (2005b) European eels, Anguilla anguilla (L), infected with Anguillicola crassus exhibit a more pronounced stress response to severe hypoxia than uninfected eels. Journal of Fish Diseases 28, 429436.CrossRefGoogle ScholarPubMed
Goodwin, A.E. (1999) Massive Lernaea cyprinacea infestations damaging the gills of channel catfish poly-cultured with bighead carp. Journal of Aquatic Animal Health 11, 406408.2.0.CO;2>CrossRefGoogle Scholar
Graczyk, T. & Fried, B. (1999) Development of Fasciola hepatica in the intermediate host. pp. 3146 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Grey, A.B. (1998) Synopsis der Parasitenfauna des Waschbären (Procyon lotor) unter Berücksichtigung von Befunden aus Hessen. Dissertation thesis, University of Giessen, Germany.Google Scholar
Guerra, J.C.V., Goncalves, L.S. & De Jong, D. (2000) Africanized honey bees (Apis mellifera, L.) are more efficient at removing worker brood artificially infected with the parasite mite Varroa jacobsoni Oudemans than are Italian bees or Italian/Africanized hybrids. Genetics and Molecular Biology 23, 8992.CrossRefGoogle Scholar
Guimaraes, C.T., de Souza Pereira, C. & Soares de Moura, D. (2001) Possible competitive displacement of planorbids by Melanoides tuberculata in Minas Gerais, Brazil. Memorias do Instituto Oswaldo Cruz 96, 173176.CrossRefGoogle ScholarPubMed
Gutiérrez, P.A. (2001) Monogenean community structure on the gills of Pimelodus albicans from Rio de la Plata (Argentina): a comparative approach. Parasitology 122, 465470.CrossRefGoogle Scholar
Gutiérrez, A., Pointier, J.P., Yong, M., Sanchez, J. & Theron, A. (2003a) Evidence of phenotypic differences between resistant and susceptible isolates of Pseudosuccinea columella to Fasciola hepatica in Cuba. Parasitology Research 40, 129134.CrossRefGoogle Scholar
Gutiérrez, A., Pointier, J.P., Fraga, J., Jobet, E., Modat, S., Pérez, R.T., Yong, M. & Théron, A. (2003b) Fasciola hepatica: identification of molecular markers for resistant and susceptible Pseudosuccinea columella snail hosts. Experimental Parasitology 105, 211218.CrossRefGoogle ScholarPubMed
Guzmán-Novoa, E., Vandame, R. & Arechavalete, M.E. (1999) Susceptibility of European and Africanized honeybees (Apis mellifera L.) to Varroa jacobsoni Oud. in Mexico . Apidologie 30, 173182.CrossRefGoogle Scholar
Haenen, O.L.M., Grisez, L., De Charleroy, D., Belpair, C. & Ollevier, F. (1989) Experimentally induced infections of European eel Anguilla anguilla with Anguillicola crassus (Nematoda: Dracunculoidea) and subsequent migration of larvae. Diseases of Aquatic Organisms 7, 97101.CrossRefGoogle Scholar
Haenen, O.L.M., Van Banning, P. & Decker, W. (1994) Infection of eel Anguilla anguilla (L.) and smelt Osmerus eperlanus (L.) with Anguillicola crassus (Nematoda: Dracunculoidea) in the Netherlands from 1986 to 1992. Aquaculture 126, 219229.CrossRefGoogle Scholar
Haenen, O.L.M., Van Wijingaarden, T.A.M., Van der Heijden, M.H.T., Höglund, J., Cornelissen, J.B.W. & Van Leengoed, L.A.M. (1996) Effects of experimental infections with doses of Anguillicola crassus (Nematoda: Dracunculoidea) on European eels (Anguilla anguilla). Aquaculture 141, 4157.CrossRefGoogle Scholar
Hahlbeck, E. (1996) Information on the distribution of Anguillicola crassus in eels (Anguilla anguilla L.) from the Baltic Sea and adjacent coastal waters and freshwater of Germany in 1994–1995. p. 14 in Proceedings of the EIFAC/ICES Working party on eel, Ijmuiden, Netherlands 23–28 September 1996.Google Scholar
Hall, D.N. (1983) Occurrence of the copepod parasite Lernaea cyprinacea, L., on the Australian grayling, Prototroctes maranea Günther. Proceedings of the Royal Society of Victoria 95, 273274.Google Scholar
Haro, A., Richkus, W., Whalen, K., Hoar, A., Busch, D.W., Lary, S., Brush, T. & Dixon, D. (2000) Population decline of the American eel. Fisheries Management 25, 716.2.0.CO;2>CrossRefGoogle Scholar
Harris, R.E. & Charleston, W.A. (1976) The epidemiology of Fasciola hepatica infections in sheep on a Lymnaea columella habitat in the Manawatu. New Zealand Veterinary Journal 24, 1117.CrossRefGoogle ScholarPubMed
Hartmann, F. (1989) Investigations on the effectiveness of Levamisol as a medication against the eel parasite Anguillicola crassus (Nematoda). Diseases of Aquatic Organisms 7, 185190.CrossRefGoogle Scholar
Hashimoto, K., Watanabe, T., Liu, C.X., Init, I., Blair, D., Ohnishi, S. & Agatsuma, T. (1997) Mitochondrial DNA and nuclear DNA indicate that the Japanese Fasciola species is F. gigantica . Parasitology Research 83, 220225.CrossRefGoogle ScholarPubMed
Hastings, A., Cuddington, K., Davies, K.F., Dugaw, C.J., Elmendorf, S., Freestone, A., Harrison, S., Holland, M., Lambrinos, J., Malvadkar, U., Melbourne, B.A., Moore, K., Taylor, C. & Thomson, T. (2005) The spatial spread of invasions: new developments in theory and evidence. Ecology Letters 8, 91101.CrossRefGoogle Scholar
Hayward, C.J., Iwashita, M., Crane, J.S. & Ogawa, K. (2001a) First report of the invasive eel pest Pseudodactylogyrus bini in North America and in wild American eels. Diseases of Aquatic Organisms 44, 5360.CrossRefGoogle ScholarPubMed
Hayward, C.J., Iwashita, M., Ogawa, K. & Ernst, J. (2001b) Global spread of the eel parasite Gyrodactylus anguillae (Monogenea). Biological Invasions 3, 417424.CrossRefGoogle Scholar
Hedrick, R.P., McDowell, T.S., Mukkataria, K., Georgiadis, M.P. & MacConnell, E. (2001) Salmonids resistant to Ceratomyxa shasta are susceptible to experimentally induced infections with Myxobolus cerebralis . Journal of Aquatic Animal Health 13, 3542.2.0.CO;2>CrossRefGoogle Scholar
Hedrick, R.P., McDowell, T.S., Marty, G.D., Fosgate, G.T., Mukkatira, K., Myklebust, K. & El-Matbouli, M. (2003) Susceptibility of two strains of rainbow trout (one with suspected resistance to whirling disease) to Myxobolus cerebralis infection. Diseases of Aquatic Organisms 55, 3744.CrossRefGoogle ScholarPubMed
Hubendick, B. (1951) Recent Lymnaeidae: their variation, morphology, taxonomy, nomenclature and distribution. Kungliga Svenska Vetenskapsakademiens Handlingar. Fjärde Serien 3, 1223.Google Scholar
Hudson, P.L. & Bowen, C.A. (2002) First record of Neoergasilus japonicus (Poecilostomatoida: Ergasilidae), a parasitic copepod new to the Laurentian great lakes. Journal of Parasitology 88, 657663.CrossRefGoogle ScholarPubMed
Hunag, W.Y., He, B., Wang, C.R. & Zhu, X.Q. (2004) Characterization of Fasciola species from mainland China by ITS-2 ribosomal DNA sequence. Veterinary Parasitology 120, 7583.CrossRefGoogle Scholar
Huyse, T., Audenart, V. & Volckaert, A. (2003) Speciation and host-parasite relationships in the parasite genus Gyrodactylus (Monogenea Platyhelminths) infecting gobies of the genus Pomatoschistus (Gobiidae, Teleostei). International Journal for Parasitology 33, 16791689.CrossRefGoogle ScholarPubMed
Ishikawa, S., Suzuki, K., Inagaki, T., Watanabe, S., Kimura, Y., Okamura, A., Otake, T., Mochioka, N., Suzuki, Y., Hasumoto, H., Oya, M., Miller, J.J., Lee, T.W., Fricke, H. & Tsukamoto, K. (2001) Spawning time and place of the Japanese eel Anguilla japonica in the north equatorial current of the western north Pacific Ocean. Fisheries Science 67, 10971103.CrossRefGoogle Scholar
Itagaki, T., Honnami, M., Ito, D., Ito, K., Tsutsumi, K., Terasaki, K., Shibahara, T. & Noda, Y. (2001) Mitochondrial DNA polymorphism of a triploid form of Fasciola in Japan. Journal of Helminthology 75, 193196.Google ScholarPubMed
Jabbour-Zahab, R., Pointier, J.P., Jourdane, J., Jarne, P., Oviedo, J.A., Bargues, M.D., Mas-Coma, S., Angles, R., Perera, G., Balzan, C., Khallayoune, K. & Renaud, F. (1997) Phylogeography and genetic divergence of some lymnaeid snails, intermediate hosts of human and animal fascicoliasis with special reference to lymnaeids from the Bolivian Altiplano. Acta Tropica 64, 191203.CrossRefGoogle ScholarPubMed
Johnson, S.K., Fries, L.T., Williams, J. & Huffman, D.G. (1995) Presence of the parasitic swim bladder nematode, Anguillicola crassus, in Texas aquaculture. Disease and Pathology 26, 3536.Google Scholar
Kamstra, A. (1991) Een overzicht van het onderzoek naar de bestrijding van de zwernblaasworm, Anguillicola crassus, in aalmesterijen. Report from Rijksinstitut voor Visserij onderzoek, Ijmuiden, Netherlands. 31 pp.Google Scholar
Kennedy, C. (1993) Introductions, spread and colonization of new localities by fish helminth and crustacean parasites in the British Isles: a perspective and appraisal. Journal of Fish Biology 43, 287301.CrossRefGoogle Scholar
Kennedy, C. (1994) The distribution and abundance of the nematode Anguillicola australiensis in eels Anguilla reinhardtii in Queensland, Australia. Folia Parasitologica 41, 279285.Google Scholar
Kennedy, C. & Fitch, D.J. (1990) Colonization, larval survival and epidemiology of the nematode Anguillicola crassus, parasitic in the eel, Anguilla anguilla, in Britain. Journal of Fish Biology 36, 117131.CrossRefGoogle Scholar
Kerans, B.L., Rasmussen, C., Stevens, R., Colwell, A.E. & Winton, J.R. (2004) Differential propagation of the metazoan parasites Myxobolus cerebralis by Limnodrilus hoffmeisteri, Ilodrylus templetoni, and genetically distinct strains of Tubifex tubifex . Journal of Parasitology 90, 13661373.CrossRefGoogle ScholarPubMed
Kim, J.H. & Lee, T.W. (2000) Eel culture in Korea. Proceedings of the Third East Asian Symposium on eel research – sustainability of resources and aquaculture of eels, November 16–18, Keelung, Taiwan p 8.Google Scholar
Kinlan, B.P. & Hastings, A. (2005) Rates of population spread and geographic range expansion: what exotic species tell us. pp. 381419 in Sax, D.F., Stachowicz, J.J. & Gaines, S.D. (Eds) Species invasions: insights into ecology, evolution, and biogeography. Sunderland, Massachussetts, Sinauer Assoc., Inc. Google Scholar
Kirk, R.S. (2003) The impact of Anguillicola crassus on European eels. Fisheries Management and Ecology 10, 385394.CrossRefGoogle Scholar
Kirk, R.S., Kennedy, C.R. & Lewis, J.W. (2000a) Effect of salinity on hatching, survival and infectivity of Anguillicola crassus (Nematoda: Dracunculoidea) larvae. Diseases of Aquatic Organisms 40, 211218.CrossRefGoogle ScholarPubMed
Kirk, R.S., Lewis, J.W. & Kennedy, C.R. (2000b) Survival and transmission of Anguillicola crassus Kuwahara, Niimi & Itagaki, 1974 (Nematoda) in seawater eels. Parasitology 120, 289295.CrossRefGoogle ScholarPubMed
Kleimann, F., Gonzalez, N., Rubel, D. & Wisnivesky, C. (2004) Fasciola hepatica (Linnaeus, 1758) (Trematoda, Digenea) en liebres europeas (Lepus europaeus, Pallas 1778) (Lago-Patagónica, Chubut, Argentina). Parasitologica Latinoamericana 59, 6871.Google Scholar
Kley, A. & Maier, G. (2003) Life history characteristics of the invasive freshwater gammarids Dikerogammarus villosus and Echinogammarus ischnus in the river Main and the Main-Donau canal. Archiv für Hydrobiologie 156, 457469.CrossRefGoogle Scholar
Knopf, K. (2006) The swimbladder nematode Anguillicola crassus in the European eel, Anguilla anguilla, and in the Japanese eel, Anguilla japonica: differences in susceptibility and immunity between a recently colonized host and the original host. Journal of Helminthology 80, 129136.CrossRefGoogle ScholarPubMed
Knopf, K. & Mahnke, M. (2004) Differences in susceptibility of the European eel (Anguilla anguilla) and the Japanese eel (Anguilla japonica) to the swim-bladder nematode Anguillicola crassus . Parasitology 129, 491496.CrossRefGoogle Scholar
Knopf, K., Würtz, J., Sures, B. & Taraschewski, H. (1998) Impact of low water temperature on the development of Anguillicola crassus in the final host Anguilla anguilla . Diseases of Aquatic Organisms 33, 143149.CrossRefGoogle ScholarPubMed
Knopf, K., Naser, K., Van der Heijden, M.H.T. & Taraschewski, H. (2000a) Humoral immune response of European eel Anguilla anguilla experimentally infected with Anguillicola crassus . Diseases of Aquatic Organisms 42, 6169.CrossRefGoogle ScholarPubMed
Knopf, K., Naser, K., Van der Heijden, M.H.T. & Taraschewski, H. (2000b) Evaluation of an ELISA and immunoblotting for studying the humoral immune response in Anguillicola crassus infected European eel Anguilla anguilla . Diseases of Aquatic Organisms 43, 3948.CrossRefGoogle ScholarPubMed
Koops, H. & Hartmann, F. (1989) Anguillicola infestations in Germany and German eel imports. Journal of Applied Ichthyology 1, 4145.CrossRefGoogle Scholar
Kraus, B. & Page, R.E. (1995) Effect of Varroa jacobsoni (Mesostigmata: Varroidae) on feral Apis mellifera (Hymenoptera: Apidae) in California. Environmental Entomology 24, 14731480.CrossRefGoogle Scholar
Kuhlmann, H. (1997) Zur Bestandssituation des Europäischen Aals. Arbeiten des Deutschen Fischerei-Verbandes. Issue 69, 4761.Google Scholar
Lampo, M. & Baylis, P. (1996) The impact of ticks on Bufo marinus from native habitats. Parasitology 113, 199206.CrossRefGoogle Scholar
Lee, C.E. (2002) Evolutionary genetics of invasive species. Trends in Ecology and Evolution 17, 386391.CrossRefGoogle Scholar
Lee, W.C., Chen, Y.H., Lee, Y.C. & Liao, J.C. (2003) The competitiveness of aquaculture in Taiwan, Japan and China. Aquaculture 221, 115124.CrossRefGoogle Scholar
Lefèbvre, F.S. & Crivelli, A.J. (2004) Anguillicolosis: dynamics of the infection over two decades. Diseases of Aquatic Organisms 62, 227232.CrossRefGoogle ScholarPubMed
Lefèbvre, F., Contournet, P. & Crivelli, A.J. (2002) The health state of the eel swimbladder as a measure of parasite pressure by Anguillicola crassus . Parasitology 124, 457463.CrossRefGoogle ScholarPubMed
Lefèbvre, F., Schuster, T., Münderle, M., Hine, M. & Poulin, R. (2004a) Anguillicolosis in the short-finned eel Anguilla australis; epidemiology and pathogenicity. New Zealand Journal of Marine and Freshwater Research 38, 577583.CrossRefGoogle Scholar
Lefèbvre, F., Mounaix, B., Poizat, G. & Crivelli, A.J. (2004b) Impacts of the swimbladder nematode Anguillicola crassus on Anguilla anguilla: variations in liver and spleen masses. Journal of Fish Biology 64, 435447.CrossRefGoogle Scholar
Lehmann, D., Hettwer, H. & Taraschewski, H. (2000) RAPD-PCR investigations of systematic relationships among four species of eels (Teleostei: Anguillidae), particularly Anguilla anguilla and A. rostrata . Marine Biology 137, 195204.CrossRefGoogle Scholar
Liewes, E.M. & Schaminee-Main, S. (1987) Onderzoek naar de effecten van de parasiet Anguillicola crassus op de ontwikkeling van de paling (Anguilla anguilla) in een zout water palingmesterij. Report from ‘TEXVIS BV’, Den Burg, Texel, Netherlands. 27 pp.Google Scholar
Lin, Y.-S., Poh, Y.-P. & Tzeng, C.-S. (2000) Present status and aspects on eel aquaculture in Japan. pp. 12 in Proceedings of the Second East Asian Symposium on eel research – sustainability of resources and aquaculture of eels. Taiwan Fisheries Research Institute, November 16–18, Keelung, Taiwan.Google Scholar
Lin, Y.-S., Poh, Y.-P. & Tzeng, C.-S. (2001) Phylogeny of freshwatesr eels inferred from mitochondrial genes. Molecular Phylogenetics and Evolution 20, 252261.CrossRefGoogle ScholarPubMed
Lively, C.M. (2001) Trematode infection and the distribution and dynamics of parthenogenetic snail populations. Parasitology 123 (Suppl.), 1926.CrossRefGoogle Scholar
Lotfy, W.M. & Hillyer, G.V. (2003) Fasciola species in Egypt. Experimental Pathology and Parasitology 6, 922.Google Scholar
Maamouri, F., Gargouri, L., Ould Daddah, M. & Bouix, G. (1999) Occurrence of Anguillicola crassus (Nematoda, Anguillicolidae) in the Ichkeul lake (Northern Tunisia). Bulletin of the European Association of Fish Pathologists 19, 1719.Google Scholar
Malone, J.B., Gommes, R., Hansen, J., Yilma, J.M., Slingenberg, J., Snijders, F., Nachtergaele, F. & Ataman, E. (1998) A geographic information system on the potential distribution and abundance of Fasciola hepatica and F. gigantica in east Africa based on Food and Agriculture Organization databases. Veterinary Parasitology 78, 87101.CrossRefGoogle Scholar
Marcilla, A., Bargues, M.D. & Mas-Coma, S.R. (2002) A PCR-RFLP assay for the distribution between Fasciola hepatica and Fasciola gigantica . Molecular Cell Probes 16, 327333.CrossRefGoogle ScholarPubMed
Mas-Coma, S., Fons, R., Feliu, C., Bargues, M.D., Valero, M.A. & Galán-Puchades, M.T. (1988) Small mammals as natural definitive hosts of the liver fluke, Fasciola hepatica Linnaeus, 1758 (Trematoda: Fasciolidae): a review and two new records of epidemiological interest on the island of Corsica. Rivista Parassitologica 5, 7378.Google Scholar
Mas-Coma, M.S., Esteban, J.G. & Bargues, M.D. (1999) Epidemiology of human fascioliasis: a review and proposed new classification. Bulletin of the World Health Organization 77, 340346.Google ScholarPubMed
Mayberry, C. & Casey, R. (2000) Stockguard cattle, strategic assessment–liver fluke. 13 pp. Government of Western Australia, Department of Agriculture.Google Scholar
McKown, R.D. & Ridley, R.K. (1995) Distribution of fasciolosis in Kansas, with results of experimental snail susceptibility studies. Veterinary Parasitology 56, 281291.CrossRefGoogle ScholarPubMed
Meinila, M., Kuusela, J., Zietara, M.S. & Lumme, J. (2004) Initial steps of speciation by geographic isolation and host switch in the salmonid pathogen Gyrodactylus salaris (Monogenea: Gyrodactylidae). International Journal for Parasitology 34, 515526.CrossRefGoogle ScholarPubMed
Mekroud, A., Benakla, A., Vignoles, P., Rondelaud, D. & Dreyfuss, G. (2004) Preliminary studies on the prevalences of natural fasciolosis in cattle, sheep, and the host snail (Galba truncatula) in north-eastern Algeria. Parasitology Research 92, 502505.CrossRefGoogle ScholarPubMed
Ménard, A., L'Hostis, M., Leray, G., Marchandeau, S., Pascal, M., Roudot, N., Michel, V. & Chauvin, A. (2000) Inventory of wild rodents and lagomorphs as natural hosts of Fasciola hepatica on a farm located in a humid area in Loire Aquitaine (France). Parasite 7, 7782.CrossRefGoogle Scholar
Meunier, C., Tirard, C., Hurtez-Boussès, S., Durand, P., Bargues, M.D., Mas-Coma, S., Pointier, J.P., Jourdane, J. & Renaud, F. (2001) Lack of molluscan host diversity and the transmission of an emerging parasitic disease in Bolivia. Molecular Ecology 10, 13331340.CrossRefGoogle ScholarPubMed
Milinski, M. (1994) Sexual selection and the evolution of female choice. Verhandlungen der Deutschen Zoologischen Gesellschaft 887, 8396.Google Scholar
Miyai, T., Aoyama, J., Sasai, S., Inoue, J., Miller, M. & Tsukamoto, K. (2004) Ecological aspects of downstream migration of introduced European eels in the Uomo River, Japan. Environmental Biology of Fishes 71, 105114.CrossRefGoogle Scholar
Mo, T.A. & Steinen, S.H. (1994) First observation of the eel swimbladder nematode Anguillicola crassus in Norway. Bulletin of the European Association of Fish Pathologists 14, 163164.Google Scholar
Moghaddam, A.S., Massoud, J.F., Mahmoodi, M., Khoubbane, M., Artigas, P., Periago, M.V., Fuentes, M.V., Bargues, M.D. & Mas-Coma, S. (2004) Distributional outline of lymnaeid snails (Gastropoda) in the fascioliasis endemic area of Mazandaran, Iran. Acta Parasitologica 49, 145152.Google Scholar
Molnár, K. (1994) Formation of parasitic nodules in the swimbladder and intestinal walls of the eel Anguilla anguilla due to infections with larval stages of Anguillicola crassus . Diseases of Aquatic Organisms 20, 163170.CrossRefGoogle Scholar
Molnár, K., Baska, F., Csaba, G. & Székely, C. (1993) Pathological and histopathological studies of the swimbladder of eels Anguilla anguilla infected by Anguillicola crassus (Nematoda: Dracunculoidea). Diseases of Aquatic Organisms 15, 4150.CrossRefGoogle Scholar
Molnár, K., Szakolczai, J., Vetési, F. (1995) Histological changes in the swimbladder wall of eels due to abnormal location of adults and second stage larvae of Anguillicola crassus. Acta Veterinaria Hungarica 43, 125137.Google ScholarPubMed
Mondragon, L., Spirak, M. & Vandame, R. (2005) A multifactorial study of the resistance of honeybees Apis mellifera to the mite Varroa destructor over one year in Mexico. Apidologie 36, 245358.CrossRefGoogle Scholar
Morand, S., Simkova, A., Matejusova, J., Pleisance, L., Verneau, O. & Desdevises, Y. (2002) Investigating patterns may reveal processes: evolutionary ecology of ectoparasitic monogeneans. International Journal for Parasitology 32, 111119.CrossRefGoogle ScholarPubMed
Moravec, F. (1994) Parasitic nematodes of freshwater fishes in Europe. 473 pp. Dordrecht, Netherlands, Kluwer.Google Scholar
Moravec, F. & Konecny, R. (1994) Some new data on the intermediate and paratenic hosts of the nematode Anguillicola crassus Kuwahara, Niimi et Itagahi 1974 (Dracunculoidea), a swim bladder parasite of eels. Folia Parasitologica 41, 6570.Google Scholar
Moravec, F. & Škorikova, B. (1998) Amphibians and larvae of aquatic insects as new paratenic hosts of Anguillicola crassus (Nematoda: Dracunculoidea), a swimbladder parasite of eels. Diseases of Aquatic Organisms 34, 217222.CrossRefGoogle ScholarPubMed
Moravec, F. & Taraschewski, H. (1988) Revision of the genus Anguillicola Yamaguti, 1935 (Nematoda: Anguillicolidae) of the swimbladder of eels, including descriptions of two new species, A. novaezelandiae sp. n. and A. papernai sp. n. Folia Parasitologica 35, 125146.Google Scholar
Moravec, F. & Rohde, K. (1992) Three species of nematodes of the superfamily Dracunculoidea from Australian fishes. Acta Societa Zoologica Bohemoslovakia 56, 187195.Google Scholar
Moravec, F., Di Cave, D., Orrechia, P. & Paggi, L. (1994) Present occurrence of Anguillicola novaezelandiae (Nematoda: Dracunculoidea) in Europe and its development in the intermediate host. Folia Parasitologica 41, 203208.Google ScholarPubMed
Moravec, F., Boomker, J. & Taraschewski, H. (2000) Paraquimperia africana, n. sp. (Nematoda: Quimperiidae), a new intestinal parasite of the eel Anguilla mossambica Peters, in South Africa. Journal of Parasitology 86, 113117.CrossRefGoogle Scholar
Moravec, F., Nagasawa, K.S. & Miyakawa, M. (2005) First record of ostracods as natural intermediate hosts of Anguillicola crassus, a pathogenic swimbladder parasite of eels Anguilla spp. Diseases of Aquatic Organisms 66, 171173.CrossRefGoogle ScholarPubMed
Morgan, J.A.T., Defong, R.J., Snyder, S.D., Mkoji, G.M. & Loker, E.S. (2001) Schistosoma mansoni and Biomphalaria: past history and future trends. Parasitology 123, 211228.CrossRefGoogle ScholarPubMed
Morozova, E.V., Chrisanfova, G.G., Arkhipov, I.A. & Semyenova, S.K. (2004) Polymorphism of the ND1 and CO1 mitochondrial genes in populations of liver fluke Fasciola hepatica . Russian Journal of Genetics 40, 817820.CrossRefGoogle ScholarPubMed
Mugridge, R.E.R., Stallybrass, H.G. & Hollman, A. (1982) Neoergasilus japonicus (Crustacea Ergasilidae). A parasitic copepod new to Britain. Journal of Zoology 197, 551557.CrossRefGoogle Scholar
Muirson, D. (2004) Liver fluke disease and the liver fluke snail. 2 pp. Farmnote 40, Government of Western Australia, Department of Agriculture.Google Scholar
Mulcahy, G., Joyce, P. & Dalton, J.P. (1999) Immunology of Fasciola hepatica infection. pp. 341376 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Münderle, M., Sures, B. & Taraschewski, H. (2004) Influence of Anguillicola crassus (Nematoda) and Ichthyophthirius multifiliis (Ciliophora) on swimming activity of European eel Anguilla anguilla . Diseases of Aquatic Organisms 60, 133139.CrossRefGoogle ScholarPubMed
Münderle, M. (2005) Ökologische, morphometrische und genetische Untersuchungen an Populationen des invasiven Schwimmblasennematoden Anguillicola crassus aus Europa und Taiwan. Dissertation thesis, University of Karlsruhe, Germany.Google Scholar
Münderle, M., Taraschewski, H., Klar, B., Chang, C.W., Shiao, J.C., Shen, K.N., He, J.T., Lin, S.H. & Tzeng, N.W. (2006) Occurrence of Anguillicola crassus (Nematoda: Dracunculoidea) in Japanese eels Anguilla japonica from a river and an aquaculture unit in southwest Taiwan. Diseases of Aquatic Organisms (in press).CrossRefGoogle Scholar
Nagasawa, K., Kim, Y.G. & Hirose, H. (1994) Anguillicola crassus and A. globiceps (Nematoda: Dracunculoidea) parasitic in the swimbladder of eels (Anguillla japonica and Anguilla anguilla) in East Asia: a review. Folia Parasitologica 41, 127137.Google Scholar
Nalepa, T.F. & Schloesser, D.W. (1993) Zebra mussels: biology, impacts and control. Boca Raton, Florida, CRC Press.Google Scholar
Neumann, W. (1985) Schwimmblasenparasit Anguillicola bei Aalen. Fischer und Teichwirt 11, 322.Google Scholar
Nielsen, M.E. & Buchmann, K. (1997) Glutatione-S-transferase is an important antigen in the eel nematode Anguillicola crassus . Journal of Helminthology 71, 319324.CrossRefGoogle Scholar
Nimeth, K., Zwerger, P., Würtz, J., Salvenmoser, W. & Pelster, B. (2000) Infection of the glass-eel swimbladder with the nematode Anguillicola crassus . Parasitology 121, 7583.CrossRefGoogle ScholarPubMed
Ooi, H.-K., Wang, W.-S., Chang, H.-Y., Wu, C.-H., Lin, C.-C.L. & Hsieh, M.-T (1996) An epizootic of anguillicolosis in cultured American eels in Taiwan. Journal of Aquatic Animal Health 8, 163166.2.3.CO;2>CrossRefGoogle Scholar
Oros, M., Hanzelová, V. & Scholz, T. (2004) The cestode Atractolytocestus huronensis (Caryophyllidea) continues to spread in Europe: new data on the helminth parasite of the common carp. Diseases of Aquatic Organisms 62, 115119.CrossRefGoogle ScholarPubMed
Paggi, L., Orecchia, P., Minertini, R. & Martiucci, S. (1982) Sulla comparsa di Anguillicola australiensis Johnson & Mawson, 1940 (Dracunculoidea: Anguillicolidae) in Anguilla anguilla del Lago di Bracchiano. Parassitologia 24, 139144.Google Scholar
Paterson, A.M. & Gray, R.D. (1997) Host-parasite cospeciation, host switching and missing the boat. pp. 236250 in Clayton, D.H. & Moore, J. (Eds) Host–parasite evolution: general principles and avian models. Oxford, Oxford University Press.CrossRefGoogle Scholar
Paterson, A.M. & Banks, J. (2001) Analytical approaches to measuring co-speciation of host and parasites: through a glass, darkly. International Journal for Parasitology 31, 10121022.CrossRefGoogle Scholar
Pereira de Souza, C., Magalhães, G.K., Konovaloff Janotti Passos, L., Pereira dos Santos, G.C., Ribeiro, F. & Katz, N. (2002) Aspects of the maintenance of the life cycle of Fasciola hepatica in Lymnaea columella in Minas Gerais, Brazil. Memorias do Instituto Oswaldo Cruz 97, 407410.CrossRefGoogle Scholar
Perry, W.L., Feder, J.L. & Lodge, D.M. (2001) Hybrid zone dynamics and species replacement between Orconectes crayfishes in a northern Wisconsin lake. Evolution 55, 11531166.Google Scholar
Pointier, J.P. & Giboda, M. (1999) The case for biological control of snail intermediate hosts of Schistosoma mansoni . Parasitology Today 15, 395397.CrossRefGoogle ScholarPubMed
Polzer, M. & Taraschewski, H. (1993) Identification and characterization of the proteolytic enzymes in the developmental stages of the eel-pathogenic nematode Anguillicola crassus . Parasitology Research 79, 2427.CrossRefGoogle ScholarPubMed
Ponder, W.F. (1975) The occurence of Lymnaea (Pseudosuccinea) columella, an intermediate host of Fasciola hepatica, in Australia. Australian Veterinary Journal 51, 494495.CrossRefGoogle Scholar
Por, F.D. (1978) Lesseptian Migration–the influx of Red Sea biota into the Mediterranean by way of the Suez Canal. 228 pp. Ecological Studies 23, Springer Verlag.Google Scholar
Poulin, R. (1998) Evolutionary ecology of parasites 212 pp. London, Chapman and Hall.Google Scholar
Poulin, R. (2001) Interactions between species and the structure of helminth communities. Parasitology 122, 311.CrossRefGoogle ScholarPubMed
Prepelitchi, L., Kleimann, F., Pietrovsky, S.M., Moriena, R.A., Racioppi, O., Alvarez, J. & Wisnivesky-Colli, C. (2003) First report of Lymnaea columella Say, 1817 (Pulmonata: Lymnaeidae) naturally infected with Fasciola hepatica (Linnaeus 1758) (Trematoda: Digenea) in Argentina. Memorias do Instituto Oswaldo Cruz 98, 889891.CrossRefGoogle Scholar
Priemer, J. (2001) Europe. pp. 157197 in Chowdhury, N. & Aguirre, A.A. (Eds) Helminths of wildlife. Plymouth, Science Publishers.Google Scholar
Rahhou, J., Melhaoui, M., Lecomte-Finiger, R., Morand, S. & Chergui, H. (2001) Abundance and distribution of Anguillicola crassus (Nematoda) in eels Anguilla anguilla from Moulouya Estuary (Morocco). Helminthologia 38, 9397.Google Scholar
Reid, F.D. & Orlova, M.J. (2002) Geological and evolutionary underpinnings for the success of Ponto-Caspian species’ invasions in the Baltic Sea and North American Great Lakes. Canadian Journal of Fisheries and Aquatic Sciences 59, 11441158.CrossRefGoogle Scholar
Reimer, L.W., Hildebrand, A., Scharberth, D. & Walter, U. (1994) Anguillicola crassus in the Baltic Sea; field data supporting transmission in brackish waters. Diseases of Aquatic Organisms 18, 7779.CrossRefGoogle Scholar
Ricciardi, A. & MacIsaac, H.J. (2000) Recent mass invastion of the North American Great Lakes by Ponto-Caspian species. Trends in Ecology and Evolution 15, 6265.CrossRefGoogle Scholar
Ricciardi, A., Neves, R.D. & Rassmussen, D.B. (1998) Impending extinction of North American freshwater mussels (Unionida) following the zebra mussel (Dreissena polymorpha) invasion. Journal of Animal Ecology 67, 613619.CrossRefGoogle Scholar
Robinson, J. & Avenant-Oldewage, A. (1996) Aspects of the morphology of the parasitic copepod Lernaea cyprinacea Linnaeus, 1758 and notes on its distribution in Africa. Crustaceana 69, 610626.Google Scholar
Rhymer, J.M. & Simberloff, D. (1996) Extinction by hybridization and introgression. Annual Review of Ecology and Systematics 27, 83109.CrossRefGoogle Scholar
Rognlie, M.C., Dimke, K.L., Potts, R.S. & Knapp, S.E. (1996) Seasonal transmission of Fasciola hepatica in Montana, USA, with detection of infected intermediate hosts using a DNA-based assay. Veterinary Parasitology 65, 297305.CrossRefGoogle ScholarPubMed
Rondelaud, D., Vignoles, P., Abrous, M. & Dreyfuss, G. (2001) The definitive and intermediate hosts of Fasciola hepatica in the natural watercress beds in central France. Parasitology Research 87, 475478.Google ScholarPubMed
Rondelaud, D., Denieve, C., Belfaiza, M., Mekroud, A., Abrous, M., Moncef, M. & Dreyfuss, G. (2004) Variability in the prevalence of infection and cercarial production in Galba truncatula raised on a high-quality diet. Parasitology Research 92, 242245.CrossRefGoogle ScholarPubMed
Ryce, E.K.N., Zale, A.V. & Nehrig, R.B. (2001) Lack of selection for resistance to whirling disease by progeny of Colorado River rainbow trout. Journal of Aquatic Animal Health 13, 6368.2.0.CO;2>CrossRefGoogle Scholar
Sakai, A.K., Alledorf, F.W., Holt, J.S., Lodge, D.M., Molofsky, J., Kimberly, A.W., Baughman, S., Cabin, R.J., Cohen, J.E., Ellstrand, N.C., McCauley, D.E., O'Neil, P., Parker, J.M., Thompson, N.J. & Weller, S.G. (2001) The population biology of invasive species. Annual Review of Ecology and Systematics 342, 305332.CrossRefGoogle Scholar
Savvidis, G.K. (1999) Eel culture activity in Greece. Current situation and problems from the aspect of veterinary contribution. Veterinarski Glasnik 53, 103120.Google Scholar
Schabuss, M., Kennedy, C.R., Konecny, R., Grillitsch, B., Reckendorfer, W., Schiemer, F. & Herzig, A. (2005) Dynamics and predicted decline of Anguillicola crassus infection in European eels, Anguilla anguilla in Neusiedler See, Austria. Journal of Helminthology 79, 159167.CrossRefGoogle ScholarPubMed
Schäperclaus, W. (1979) Fischkrankheiten. 1089 pp. Berlin, Akademie-Verlag.Google Scholar
Schlaepfer, M.A., Sherman, P.W., Blossey, B. & Runge, M.C. (2005) Introduced species as evolutionary traps. Ecology Letters 8, 241246.CrossRefGoogle Scholar
Scholz, T. (1989) Amphilinida and Cestoda, parasites of fish in Czechoslovakia. Acta Scienciae Naturae Brno 23, 156.Google Scholar
Scholz, T. & Di Cave, D. (1992) Bothriocephalus acheilognathi (Cestoda: Pseudophyllidea) parasite of freshwater fish in Italy. Parassitologia 34, 155158.Google ScholarPubMed
Scholz, T., Aguirre-Macedo, M.L. & Salgado-Maldonado, G. (2001) Trematodes of the family Heterophyidae (Digenea) in Mexico: a review of species and new host and geographical records. Journal of Natural History 35, 17331772.CrossRefGoogle Scholar
Scholz, T., Škeríková, A., Takeshi, S. & Grygier, M.J. (2004) A taxonomic study of species of Bothriocephalus Rudolphi, 1808 (Cestoda: Pseudophyllidea) from eels in Japan: morphological and molecular evidence for the occurrence of B. claviceps (Goeze, 1782) and confirmation of the validity of B. japonicus Yamaguti, 1934. Systematic Parasitology 57, 8796.CrossRefGoogle ScholarPubMed
Shimalov, V.V. & Shimalov, V.T. (2000) Findings of Fasciola hepatica Linnaeus, 1758 in wild animals in Belorussian Polesie. Parasitology Research 86, 527.CrossRefGoogle ScholarPubMed
Simberloff, D. & von Holle, B. (1999) Positive interactions of nonindigenous species: invasional meltdown? Biological Invasions 1, 2132.CrossRefGoogle Scholar
Simkova, A., Morand, S., Jobet, E., Gelnar, M. & Verneau, O. (2004) Molecular phylogeny of congeneric monogenean parasites (Dactylogyrus): a case of intrahost speciation. Evolution 58, 10011018.Google ScholarPubMed
Skelton, P.H. (1993) A complete guide to the freshwater fishes of Southern Africa. 388 pp. Johannesburg, Southern Book Publishers.Google Scholar
Solignac, M., Cornuet, J.M., Vautrin, D., Le Conte, Y., Anderson, D., Evans, J., Cros-Artesil, S. & Navajas, M. (2005) The invasive Korea and Japan types of Varroa destructor, ectoparasitic mites of the Western honeybee Apis mellifera, are two partly isolated clones. Proceedings of the Royal Society of London. Series B, Biological Science 272, 411419.Google ScholarPubMed
Sorvillo, F., Ash, L.R., Berlin, O.G.W., Yatabe, J., Degiorgio, C. & Morze, S.A. (2002) Baylisascaris procyonis: an emerging helminthic zoonosis. Emerging Infectious Diseases 8, 355359.CrossRefGoogle ScholarPubMed
Spickett, A.M. & Malan, J.R. (1978) Genetic incompatibility between Boophilus decoloratus (Koch, 1844) and Boophilus microplus (Canestrini, 1888) and hybrid sterility of Australian and South African Boophilus microplus (Acarina: Ixodidae). Onderstepoort Journal of Veterinary Research 45, 149153.Google ScholarPubMed
Spratt, D.M. & Presidente, P.J.A. (1981) Prevalence of Fasciola hepatica infection in native mammals in southeast Australia. Australian Journal of Experimental Biology and Medical Science 59, 713721.CrossRefGoogle Scholar
Stevenson, M.A., Benard, H., Bolger, P. & Morris, R.S. (2005) Spatial epidemiology of the Asian honey bee mite (Varroa destructor) in the North Island of New Zealand. Preventive Veterinary Medicine 71, 241252.CrossRefGoogle ScholarPubMed
Stone, R. (2003) Freshwater eels are slip-sliding away. Science 302, 221222.CrossRefGoogle ScholarPubMed
Sugeha, H.Y., Arai, T., Miller, M., Limbong, D. & Tsukamoto, K. (2001) Inshore migration of the tropical eels Anguilla spp. recruiting to the Poigar river estuary in north Sulwesi Island. Marine Ecology–Progress Series 221, 233243.CrossRefGoogle Scholar
Sures, B. & Streit, B. (2001) Eel parasite diversity and intermediate host abundance in the River Rhine, Germany. Parasitology 123, 185191.CrossRefGoogle ScholarPubMed
Sures, B., Knopf, K. & Kloas, W. (2001) Induction of stress by the swimbladder nematode Anguillicola crassus in European eels, Anguilla anguilla, after repeated experimental infection. Parasitology 123, 179184.CrossRefGoogle ScholarPubMed
Sures, B., Knopf, K. & Taraschewski, H. (1999) Development of Anguillicola crassus (Dracunculoidea, Anguillicolidae) in experimentally infected Balearic congers Ariosoma balearicum (Anguilloidea, Congridae). Diseases of Aquatic Organisms 39, 7578.CrossRefGoogle ScholarPubMed
Sutherst, R.W. (2001) The vulnerability of animals and human health to parasites under global change. International Journal for Parasitology 31, 933948.CrossRefGoogle ScholarPubMed
Taraschewski, H., Moravec, F., Lamah, T. & Anders, K. (1987) Distribution and morphology of two helminths recently introduced into European eel populations: Anguillicola crassus (Nematoda, Drancunculoidea) and Paratenuisentis ambiguus (Acanthocephala, Tenuisentidae). Diseases of Aquatic Organisms 3, 167176.CrossRefGoogle Scholar
Taraschewski, H., Renner, C. & Mehlhorn, H. (1988) Treatment of fish parasites III. Effects of levamisole-HCL, metrifonate, flubendazole, mebendazole, and ivermectin on Anguillicola crassus (Nematodes) pathogenic in the air bladder of eels. Parasitology Research 74, 281289.CrossRefGoogle Scholar
Taraschewski, H., Boomker, J., Knopf, K. & Moravec, F. (2005) Studies on the morphology and ecology of Anguillicola papernai (Nematoda: Anguillicolidae) parasitizing the swimbladder of African longfin eel, Anguilla mossambica, and on the helminth community in this eel. Diseases of Aquatic Organisms 62, 185195.CrossRefGoogle Scholar
Tesch, F.-W (1999) Der Aal. 3rd edn. 397 pp. Berlin, Parey Publisher.Google Scholar
Tesch, F.-W. (2000) Ways to investigate the problems of the sustainability of eel stocks. pp. 6162 in Proceedings of the Second East Asian Symposium on eel research – substainability of resources and aquaculture of eels. November 16–18, Keelung, Taiwan.Google Scholar
Thielen, F. (2005) Der Einfluss einwandernder Amphipodenarten auf die Parasitozönose des Europäischen Aals ( Anguilla anguilla ). Dissertation thesis, University of Karlsruhe, Germany.Google Scholar
Tielens, A.G.M. (1999) Metabolism. pp. 277306 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Thompson, K.G., Nehring, R.B., Bowden, D.C. & Wygant, T. (1999) Field exposure of seven species or subspecies of salmonids to Myxobolus cerebralis in the Colorado River, Middle Park, Colorado. Journal of Aquatic Animal Health 11, 312329.2.0.CO;2>CrossRefGoogle Scholar
Thompson, R.C.A. & Lymbery, A.J. (1988) The nature, extent and significance of variation within the genus Echinococcus. Advances in Parasitology 27, 209258.CrossRefGoogle ScholarPubMed
Tonnesen, M.H., Penzhorn, B.L., Bryson, N.R., Stoltsz, W.H. & Masibigiri, T. (2004) Displacement of Boophilus decoloratus by Boophilus microplus in the Soutpansberg region, Limpopo Province, South Africa. Experimental and Applied Acarology 32, 199208.CrossRefGoogle ScholarPubMed
Torchin, M.E., Lafferty, K.D. & Kuris, A.M. (2001) Release from parasites as natural enemies: increased performances of a globally introduced marine crab. Biological Invasions 3, 333345.CrossRefGoogle Scholar
Torchin, M.E., Lafferty, K.D. & Kuris, A.M. (2002) Parasites and marine invasions. Parasitology 124, 51375151.CrossRefGoogle Scholar
Torgerson, P. & Claxton, J. (1999) Epidemiology and control. pp. 113149 in Dalton, J.P. (Ed.) Fasciolosis. Wallingford, Oxon, CABI Publishing.Google Scholar
Tzeng, W.N., Cheng, P.W. & Lin, F.Y. (1995) Relative abundance, sex ratio and population structure of the Japanese eel Anguilla japonica in the Tansui River system of northern Taiwan. Journal of Fish Biology 46, 183201.CrossRefGoogle Scholar
Tsukamoto, K. & Aoyama, J. (1998) Evolution of freshwater eels of the genus Anguilla: a probable scenario. Environmental Biology of Fishes 52, 139148.CrossRefGoogle Scholar
Tskukamoto, K., Otake, T., Mochioka, N., Lee, T.W., Fricke, H., Inagaki, T., Aoyama, J., Ishikawa, S., Kimura, S., Miller, M.J., Hasumoto, H., Oya, M. & Suzuki, Y. (2003) Seamounts, new moon and eel spawning: the search for the spawning site of the Japanese eel. Environmental Biology of Fishes 66, 221229.CrossRefGoogle Scholar
Valero, M.A., Marcos, M.D., Comes, A.M., Sendra, M. & Mas-Coma, S. (1999) Comparison of adult liver flukes from highland and lowland populations of Bolivian and Spanish sheep. Journal of Helminthology 73, 341345.CrossRefGoogle ScholarPubMed
Valero, M.A., Panova, M., Comes, A.M., Fons, R. & Mas-Coma, S. (2002) Patterns in sizes and shedding of Fasciola hepatica eggs by naturally and experimentally infected murid rodents. Journal of Parasitology 88, 308313.CrossRefGoogle Scholar
Van Banning, P. & Haenen, O.L.M. (1990) Effects of the swimbladder nematode Anguillicola crassus in wild and farmed eel, Anguilla anguilla. pp. 317330 in Perkins, F.O. & Cheng, T.C. (Eds) Pathology in marine science. New York, Academic Press.Google Scholar
Van der Velde, G., Rajagopal, S., Kelleher, B., Muskó, I.B. & Bij de Vaate, A. (2000) Ecologocial impacts of crustacean invaders: general considerations and examples from the river Rhine. Crustacean Issues 12, 333.Google Scholar
Van Riper, G., Van Riper, S.G., Goff, L.M. & Laird, M. (1986) The epizootiology and ecological significance of malaria in Hawaiian Island birds. Ecological Monographs 56, 327335.CrossRefGoogle Scholar
Viggers, K.L. & Spratt, D.M. (1995) The parasites recorded from Trichosurus species (Marsupialia, Phalangeridae). Wildlife Research 22, 311332.CrossRefGoogle Scholar
Vignoles, P., Menard, A., Rondelaud, D., Agoulon, A. & Dreyfuss, G. (2004) Fasciola hepatica: the growth and larval productivity of redial generations in Galba truncatula subjected to miracidia differing in their mammalian origin. Journal of Parasitology 90, 430433.CrossRefGoogle ScholarPubMed
Vigo, M., Bargues, M.D., Yong, M., Arenas, J.A., Naquira, C., Paraense, W.L., Pointier, J.P. & Mas-Coma, S. (2000) Molecular characterization of a snail species transmitting fasciolosis, Lymnaea columella (Gastropoda. Lymnaeidae), from Cuba, Guadeloupe, Venezuela, Peru and Brazil. p. 156. in Proceedings of the 15th International Congress for Tropical Medicine and Malaria, Cartagena, Colombia.Google Scholar
Watanabe, S., Aoyama, J., Nishida, M. & Tsukamoto, K. (2005) A molecular genetic evaluation of the taxonomy of eels of the genus Anguilla (Pisces: Anguilliformes). Bulletin of Marine Science 76, 675690.Google Scholar
Wickström, H., Clevestam, P., Höglund, J. (1998) The spreading of Anguillicola crassus in freshwater lakes in Sweden. Bulletin Français de la Pêche et de Pisciculture 349, 215221.CrossRefGoogle Scholar
Williams, D.D. & Sutherland, D.R. (1981) Khawia sinensis (Caryophyllidea: Lytocestidae) from Cyprinus carpio in North America. Proceedings of the Helminthological Society of Washington 48, 253255.Google Scholar
Wilson, K.A., Magnusen, J.J., Lodge, D.M., Hill, A.M., Kratz, T.K., Perry, W.L. & Willis, T.V. (2004) A long term rusty crayfish (Orconectes rusticus) invasion: dispersal patterns and community change in a north temperate lake. Canadian Journal of Fisheries and Aquatic Sciences 61, 22552266.CrossRefGoogle Scholar
Wirth, T. & Bernatchez, L. (2001) Genetic evidence against panmixia in the European eel. Nature 409, 10371040.CrossRefGoogle ScholarPubMed
Würtz, J., Taraschewski, H. & Pelster, B. (1996) Changes in the gas composition in the swimbladder of the European eel (Anguilla anguilla) infected with Anguillicola crassus (Nematoda). Parasitology 112, 233238.CrossRefGoogle ScholarPubMed
Würtz, J., Knopf, K. & Taraschewski, H. (1998) Distribution and prevalence of Anguillicola crassus (Nematoda) in eels Anguilla anguilla of the river Rhine and Naab, Germany. Diseases of Aquatic Organisms 32, 137143.CrossRefGoogle ScholarPubMed
Würtz, J. & Taraschewski, H. (2000) Histopathological changes in the swimbladder wall of the European eel Anguilla anguilla due to infections with Anguillicola crassus . Diseases of Aquatic Organisms 39, 121134.CrossRefGoogle ScholarPubMed
Yamada, Y., Oka, H.P., Okamura, A., Tanaka, S., Utoh, T., Horie, N., Mikawa, N. & Ogawa, K. (2001) Infection of the digenean Aerobiotrema muraenesocis in the swim bladder lumen of pike eel Muraenesox cinereus. Fish Pathology 36, 4755.CrossRefGoogle Scholar
Zietara, M.S. & Lumme, J. (2002) Speciation by host switch and adaptive radiation in the fish parasite genus Gyrodactylus (Monogenea, Gyrodactylidae). Evolution 56, 24452458.Google ScholarPubMed