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Survey of nasal mites (Rhinonyssidae, Ereynetidae, and Turbinoptidae) associated with birds in Alberta and Manitoba, Canada

Published online by Cambridge University Press:  02 April 2012

Wayne Knee*
Affiliation:
Department of Biology, Carleton University, Ottawa, Ontario, Canada K1S 5B6
Heather Proctor
Affiliation:
Department of Biological Sciences, University of Alberta, Edmonton, Alberta, Canada T6G 2E9
Terry Galloway
Affiliation:
Department of Entomology, University of Manitoba, Winnipeg, Manitoba, Canada R3T 2N2
*
1Corresponding author (e-mail: [email protected]).

Abstract

Three major lineages of mites (Arachnida: Acari) are parasitic in the nasal passages of birds: Rhinonyssidae (Mesostigmata), Ereynetidae (Prostigmata), Cytoditidae, and Turbinoptidae (Astigmata). The most diverse group of avian nasal mites is the Rhinonyssidae, which are obligate endoparasites of non-ratite birds worldwide. Prior to this study, there were only four published and three unpublished records of nasal mites from birds in Canada. In Alberta, 15% of 450 birds (154 species) examined during 2003–2007 were infested with nasal mites; in Manitoba, 16% of 2447 birds (196 species) examined during 1996–2006 were infested. We have expanded the known records of host – nasal mite species in Canada from 7 to 102, a 14-fold increase. There are now 50 species of Rhinonyssidae, 7 species of Ereynetidae, and 1 species of Turbinoptidae known from birds in Alberta and Manitoba. We predict that at least 70 species of rhinonyssid mites can be found in Canada.

Résumé

Trois lignées principales d’acariens (Arachnides: Acari) sont parasites dans les passages nasaux des oiseaux: Rhinonyssidae (Mesostigmata), Ereynetidae (Prostigmata), Cytoditidae et Turbinoptidae (Astigmata). Le groupe le plus diversifié d’acariens nasaux aviaires sont les Rhinonyssidae, qui sont des endoparasites obligatoires des oiseaux autres que ratites dans le monde entier. Avant cette étude, il y avait seulement quatre mentions publiées ainsi que trois cas non publiés d’acariens nasaux des oiseaux au Canada. En Alberta, 15 % de 450 oiseaux (154 espèces) examinés entre 2003 et 2007 étaient infestés avec des acariens nasaux; au Manitoba, 16 % de 2447 oiseaux (196 espèces) examinés entre 1996 et 2006 étaient infestés. Cette étude fait passer la liste des mentions d’acariens nasaux sur un hôte aviaire au Canada de sept à 102, soit une augmentation de l’ordre de 14 fois. Il y a maintenant 50 espèces de Rhinonyssidae, 7 espèces d’Ereynetidae, et 1 espèce de Turbinoptidae connues associées aux oiseaux en Alberta et au Manitoba. Nous prévoyons qu’au moins 70 espèces d’acariens rhinonyssides peuvent être trouvées au Canada.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 2008

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References

Akimov, A., Badanin, I.V., and Zabludovskaya, S.A. 2003. Ereynetid mites (Prostigmata, Ereynetidae) and the paths of their specialization to parasitism. Acarina, 11: 6572.Google Scholar
Andrew, P., and McAllan, I. 1998. Nomina: global bird dictionary, relational taxonomies. CSIRO Publishing, Collingwood, Australia.Google Scholar
Ballard, J.T., and Ring, R.A. 1979. The ectoparasites of some marine birds from Bamfield Marine Station, British Columbia, with particular reference to the common murre (Uria aalge (Pont.)). Canadian Journal of Zoology, 57: 19801984.CrossRefGoogle Scholar
Bell, P.J. 1996 a. Survey of the nasal mite fauna (Rhinonyssidae and Kytoditidae) of the Gouldian finch, Erythrura gouldiae, and some co-occurring birds in the Northern Territory. Wildlife Research, 23: 675685.CrossRefGoogle Scholar
Bell, P.J. 1996 b. The life history and transmission biology of Sternostoma tracheacolum Lawrence (Acari: Rhinonyssidae) associated with the Gouldian finch Erythrura gouldiae. Experimental and Applied Acarology, 20: 323334.CrossRefGoogle Scholar
Butenko, O.M., and Stanyukovich, M.K. 1999. The distribution of rhinonyssid mites (Acari, Gamasina, Rhinonyssidae) in the nasal cavities of some anatid birds. Ekologiya, 2: 5256.Google Scholar
Carey, B., Christianson, W., Curtis, C.E., de March, L., Holland, G.E., Koes, R.F., Nero, R.W., Parsons, R.J., Taylor, P., Waldron, M., and Waltz, G. 2003. The birds of Manitoba. Manitoba Naturalists' Society, Winnipeg, Manitoba.Google Scholar
Clark, G.M. 1964. One new and one previously unreported nasal mite (Acarina, Speleognathinae) from North American birds, with observations on speleognathid taxonomy. Journal of Parasitology, 50: 158162.CrossRefGoogle ScholarPubMed
Clements, J.F. 1991. Birds of the world: a checklist. 4th ed. Ibis Publishing, Vista, California.Google Scholar
De-Rojas, M., Mora, M.D., Ubeda, J.M., Cutillas, C., Navajas, M., and Guevara, D.C. 2002. Phylogenetic relationships in rhinonyssid mites (Acari: Rhinonyssidae) based on ribosomal DNA sequences: insights for the discrimination of closely related species. Parasitology Research, 88: 675681.CrossRefGoogle Scholar
Domrow, R. 1969. The nasal mites of Queensland birds (Acari: Dermanyssidae, Ereynetidae, and Epidermoptidae). Proceedings of the Linnaean Society of New South Wales, 93: 297426.Google Scholar
Fain, A. 1960. Revision du genre Cytodites (Megnin) et description de deux espèces et un genre nouveaux dans la famille Cytoditidae Oudemans. Acarologia, 2: 238249.Google Scholar
Fain, A. 1994. Adaptation, specificity and host–parasite coevolution in mites (Acari). International Journal for Parasitology, 24: 12731283.CrossRefGoogle Scholar
Fain, A., and Hyland, K.E. 1962. The mites parasitic in the lungs of birds: the variability of Sternostoma tracheacolum Lawrence, 1948, in domestic and wild birds. Parasitology, 52: 401424.CrossRefGoogle Scholar
Galloway, T.D., and Danks, H.V. 1991. Arthropod ectoparasites of vertebrates in Canada. Bulletin of the Entomological Society of Canada, 23(Suppl.).Google Scholar
George, J.E. 1961. The nasal mites of the genus Ptilonyssus (Acarina: Rhinonyssidae) occurring on some North American passeriform birds. Journal of the Kansas Entomological Society, 34: 105132.Google Scholar
Hood, D.E., and Welch, H.E. 1980. A seasonal study of the parasites of the red-winged blackbird (Agelaius phoeniceus L.) in Manitoba and Arkansas. Canadian Journal of Zoology, 58: 528537.CrossRefGoogle Scholar
Hyland, K.E. 1962. Two new nasal mites, Ptilonyssus morofskyi, n.sp., and Sternostoma porteri n.sp., from North American birds (Acarina; Rhinonyssidae). Bulletin of the Brooklyn Entomological Society, 57: 146156.Google Scholar
Hyland, K.E. 1963. Current trends in the systematics of acarines endoparasitic in vertebrates. In Advances in acarology. Edited by Naegele, J.A.. Comstock Publishing Associates, Ithaca, New York. pp. 365373.Google Scholar
Knee, W. 2008. Five new species of Rhinonyssidae (Mesostigmata) and one new species of Dermanyssus (Mesostigmata: Dermanyssidae) from birds of Alberta and Manitoba, Canada. Journal of Parasitology, 94: 348374.CrossRefGoogle ScholarPubMed
Krantz, G.W. 1978. A manual of acarology. 2nd ed. Oregon State University Book Stores, Corvallis, Oregon.Google Scholar
Krivolutsky, D.A., and Lebedeva, N.V. 2004. Oribatid mites (Oribatei, Acariformes) in bird feathers: non-passerines. Acta Zoologica, 14: 2647.CrossRefGoogle Scholar
Lepage, D. 2007. Avibase — bird checklists of the world — Canada [online]. Available from http://www.bscoc.org/avibase/avibase.jsp?region=ca&pg=checklist&list=cle ments [accessed 5 June 2007].Google Scholar
Lindquist, E.E., with contributions by Ainscough, B.D., Clulow, F.V., Funk, R.C., Marshall, V.G., Nesbitt, H.H.J., OConnor, B.M., Smith, I.M., and Wilkinson, P.R. 1979. Acari, In Canada and its insect fauna. Edited by Danks, H.V.. Memoirs of the Entomological Society of Canada, 108: 252290.Google Scholar
Maa, T.C., and Kuo, J.S. 1965. A field survey of arthropod parasites of birds in Taiwan. Journal of Medical Entomology, 1: 395401.CrossRefGoogle ScholarPubMed
Mitchell, R.W., and Rhodes, W.L. 1960. New host records for the mesostigmatid nasal mite Rhinonyssus rhinolethrum (Acarina: Rhinonyssidae). The South-western Naturalist, 5: 107108.CrossRefGoogle Scholar
Pence, D.B. 1972. The nasal mites of birds from Louisiana III. The genus Ptilonyssus (Dermanyssidae: Rhinonyssinae) with description of a new species. Journal of Parasitology, 58: 790795.CrossRefGoogle Scholar
Pence, D.B. 1973. The nasal mites of birds from Louisiana. IX. Synopsis. Journal of Parasitology, 59: 881892.CrossRefGoogle Scholar
Pence, D.B. 1975. Keys, species and host list, and bibliography for nasal mites of North American birds (Acarina: Rhinonyssinae, Turbinoptinae, Speleognathinae, and Cytoditidae). Special Publications of the Museum of Texas Tech University No. 8.Google Scholar
Pence, D.B., and Casto, S.D. 1976 a. Nasal mites of the subfamily Speleognathinae (Ereynetidae) from birds in Texas. Journal of Parasitology, 62: 466469.CrossRefGoogle ScholarPubMed
Pence, D.B., and Casto, S.D. 1976 b. Studies on the variation and morphology of the Ptilonyssussairae” complex (Acarina: Rhinonyssinae) from North American passeriform birds. Journal of Medical Entomology, 13: 7195.CrossRefGoogle ScholarPubMed
Porter, J.C., and Strandtmann, R.W. 1952. Nasal mites of the English sparrow. Texas Journal of Science, 4: 393399.Google Scholar
Proctor, H.C., and Owens, I. 2000. Mites and birds: diversity, parasitism and coevolution. Trends in Ecology and Evolution, 15: 358364.CrossRefGoogle ScholarPubMed
Radovsky, F.J. 1985. Evolution of mammalian mesostigmate mites. In Coevolution of parasitic arthropods and mammals. Edited by Kim, K.C.. John Wiley, New York. pp. 441504.Google Scholar
Royal Alberta Museum. 2005. The official list of the birds of Alberta [online]. Available from http://www.royalalbertamuseum.ca/natural/birds/birdlist/taxon.htm [accessed 31 March 2006].Google Scholar
Spicer, G.S. 1978. A new species and several new host records of avian nasal mites (Acarina: Rhinonyssinae, Turbinoptinae). Journal of Parasitology, 64: 891894.CrossRefGoogle Scholar
Spicer, G.S. 1984. Nasal mites from birds of a Guatemalan cloud forest (Acarina: Rhinonyssidae). Journal of Parasitology, 70: 794802.CrossRefGoogle ScholarPubMed
Spicer, G.S. 1987. Prevalence and host–parasite list of some nasal mites from birds (Acarina: Rhinonyssidae, Speleognathidae). Journal of Parasitology, 73: 259264.CrossRefGoogle ScholarPubMed
Stephan, S.A.R., Kaschula, V.R., and Canham, F.S. 1950. Respiratory acariasis of canaries. Journal of the South African Veterinary Medical Association, 21: 103107.Google Scholar
Strandtmann, R.W. 1948. The mesostigmatic nasal mites of birds. I. Two new genera from shore and marsh birds. Journal of Parasitology, 34: 505514.CrossRefGoogle Scholar
Strandtmann, R.W. 1956. The mesostigmatic nasal mites of birds. IV. The species and hosts of the genus Rhinonyssus. Proceedings of the Entomological Society of Washington, 58: 129142.Google Scholar
Tidemann, S.C., McOrist, S., Woinarski, J.C.Z., and Freeland, W.J. 1992. Parasitism of wild Gouldian finches (Erythrura gouldiae) by the air-sac mite Sternostoma tracheacolum. Journal of Wildlife Diseases, 28: 8084.CrossRefGoogle ScholarPubMed
Wheeler, T.A., and Threlfall, W. 1989. Synopsis of the parasites of vertebrates of Canada: ectoparasites of birds. Animal Health Division, Alberta Agriculture, Edmonton, Alberta.Google Scholar
Wilson, N., and Haas, G.E. 1980. Ectoparasites (Mallophaga, Diptera, Acari) from Alaskan birds. Proceedings of the Entomological Society of Washington, 82: 541552.Google Scholar