Register      Login
Invertebrate Systematics Invertebrate Systematics Society
Systematics, phylogeny and biogeography
Shopping Cart: ( empty )
You are here: Home > Journals > IS > IS05017
RESEARCH ARTICLE
Contents Vol 19(5)

Phylogeny and host associations of the fur-mite subgenus Listrophoroides (sensu stricto) Hirst (Acari : Atopomelidae) with an intriguing example of synhospitality on rats of the genus Maxomys

Andre V. Bochkov A B C and Barry M. OConnor A
+ Author Affiliations
- Author Affiliations

A Museum of Zoology, University of Michigan, 1109 Geddes Ave, Ann Arbor, MI 48109, USA.

B Zoological Institute of the Russian Academy of Sciences, Universitetskaya embankment 1, 199034 St Petersburg, Russia.

C Corresponding author. Email: bochkov@umich.edu

Invertebrate Systematics 19(5) 437-498 https://doi.org/10.1071/IS05017
Submitted: 26 April 2005  Accepted: 5 September 2005   Published: 12 December 2005

Abstract

Phylogenetic relationships among species of the parasitic mite subgenus Listrophoroides Hirst (Atopomelidae), fur-mites of Asian and African murine rodents, are reconstructed on the basis of parsimony analysis of morphological characters. This group is polyphyletic with respect to the outgroup, subgenera Marquesania Womersley and Paklistrophoroides Fain & Hyland. The mite phylogeny partially reflects the host phylogeny and several groups of closely related species associated with particular rodent groups are recognised. The rajah-group, with 34 species associated with rats of the genus Maxomys Sody, is most diverse. Most Maxomys species are parasitised by a single mite species but some of them harbour a complex of several species. Maxomys surifer (Miller), the most widespread species of the genus, hosts unique species combinations comprising 23 species in different parts of its range. This synhospitality is hypothesised to have originated during Pleistocene isolation of different host populations in multiple rain forest refugia. The current species complexes also reflect later host range expansions. These data are consistent with a hypothesis of Pliocene vicariance in some Sunda Shelf rodents and not with the traditional view of widespread migration across the Late Pleistocene Sunda Shelf. The rajah species-group is revised, 16 species are described as new and three are synonymised.


Acknowledgments

We express our thanks to Ms L. Gordon (NMNH), Drs N. Simmons (AMNH) and L. Heaney, Mr W. Stanley (FMNH) and Ms G. I. Baranova (ZISP) who provided access to the host specimens examined in this study. We especially thank Drs G. Musser (AMNH) and A. Gorog (UMMZ), who reviewed this manuscript and allowed us to sample the Maxomys material they obtained in Sulawesi and Borneo respectively. We thank A. Fain (IRSNB) for access to type specimens and three anonymous referees, Drs P. Cranston (University of California, Davis, USA) and S. Mironov (ZISP) for valuable comments. This research was supported by a grant from the USA National Science Foundation DEB-0118766 (PEET) to BMOC.


References


Bochkov A. V. (2001) Parallel evolution of mites of the family Myobiidae (Acari: Prostigmata) and jerboas (Rodentia: Dipodoidea). Parazitologiya In Russian with English summary 35, 9–18. open url image1

Bochkov A.V., Fain A. (2001) Phylogeny and system of the Cheyletidae (Acari: Prostigmata) with special reference to their host–parasite associations. Bulletin de l’Institut royal des Sciences naturelles de Belgique (Entomologie) 71, 5–36. open url image1

Bochkov A. V., Fain A. (2003) Revision of the subgenus Marquesania (Acari, Atopomelidae). Invertebrate Systematics 17, 575–604.
Crossref | GoogleScholarGoogle Scholar | open url image1

Bochkov A. V., Mironov S. V. (2001) New records of fur-mites of the subgenus Listrophoroides s.str. (Acari: Atopomelidae) from rats of Vietnam. Mitteilungen aus dem Hamburgischen zoologischen Museum und Institut 13, 279–285. open url image1

Bochkov A. V., OConnor B. M., Gorog A. (2004) New species and records of fur mites (Acari: Astigmata: Atopomelidae) from Southeast Asian rodents (Rodentia: Muridae). Acarina 12, 67–86. open url image1

Bochkov A. V., Klimov P. B., OConnor B. M. (2004 [2005]) Fur-mites of the genus Atopomelus Trouessart, 1918 (Acari: Atopomelidae): life-cycle, phylogeny, and host parasite-associations. Acarologia 45, 27–241. open url image1

Brooks D. R. (1990) Parsimony analysis in historical biogeography and coevolution: methodological and theoretical update. Systematic Zoology 39, 14–30. open url image1

Dabert J. (2003) The feather mite family Syringobiidae Trouessart, 1896 (Acari, Astigmata, Pterolichoidea). II. Phylogeny and host–parasite evolutionary relationships. Acta Parasitologica Supplement 48, 185–233. open url image1

Dabert J., Dabert M., Mironov S. V. (2001) Phylogeny of feather mite subfamily Avenzoariinae (Acari: Analgoidea: Avenzoariidae) inferred from combined analyses of molecular and morphological data. Molecular Phylogenetics and Evolution 20, 124–135.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Domrow R. (1958) A summary of the Atopomelinae (Acarina, Listrophoridae). Proceedings of the Linnean Society of New South Wales 83, 40–54. open url image1

Dubinina E. V., Bochkov A. V., Bobrovskaja V. I. (1993) Notes on systematics of mites of the genus Schizocarpus (Acariformes: Chirodiscidae). Parazitologiya In Russian with English summary 27, 450–453. open url image1

Ducroz J. F., Volobuev V., Granjon L. (2001) An assessment of the systematics of arvicanthine rodents using mitochondrial DNA sequences: evolutionary and biogeographical implications. Journal of Mammalian Evolution 8, 173–206.
Crossref | GoogleScholarGoogle Scholar | open url image1

Ehrnsberger R., Mironov S. V., Dabert J. (2001) A preliminary analysis of phylogenetic relationships of the feather mite family Freyanidae Dubinin, 1953 (Acari: Astigmata). Biological Bulletin of Poznan 38, 181–201. open url image1

Eichler W. (1966) Two new evolutionary terms for speciation in parasitic animals. Systematic Zoology 15, 216–218.
PubMed |
open url image1

Fain A. (1970) Diagnoses de nouveaux Listrophorides de la famille Atopomelidae (Acarina, Sarcoptiformes). Bulletin et Annales de la Société Royale d’Entomologie de Belgique 106, 275–306. open url image1

Fain A. (1972a) Les Listrophorides en Afrique au Sud du Sahara (Acarina: Sarcoptiformes). III. Famille Atopomelidae. Annales Musée royal de Afrique Centrale (Ser. 8°). Sciences Zoologiques 197, 1–200. open url image1

Fain A. (1972b) Les Listrophorides d’Australie et de Nouvelle-Guinee (Acarina: Sarcoptiformes). Bulletin de l’Institut royal des Sciences naturelles de Belgique 48, 1–196. open url image1

Fain A. (1974) Nouveaux acariens parasites pilicoles (Myobiidae et Atopomelidae). Bulletin et Annales de la Société Royale d’Entomologie de Belgique 110, 170–172. open url image1

Fain A. (1975) Diagnoses de nouveaux Listrophoroides de Nouvelle-Guinee (Acarina). Bulletin et Annales de la Société Royale d’Entomologie de Belgique 111, 183–186. open url image1

Fain A. (1976a) Nouveaux acariens parasites de la superfamille Listrophoroidea (Astigmates). Acta Zoologica et Pathologica Antwerpiensia 64, 37–67. open url image1

Fain A. (1976b). ‘Faune de Madagascar Vol. 42, Arachnides, Acariens, Astigmata, Listrophoroidea.’ (Ed. M. R. Paulian.) pp. 1–131. (ORSTOM, CNRS: Paris.)

Fain A. (1977) Notes on the listrophoroid mites of New Guinea (Acarina: Listrophoroidea). Journal of Medical Entomology 14, 279–297. open url image1

Fain A. (1979) Diagnoses de nouvelles especes du genre Listrophoroides Hirst, 1923 (Acari, Astigmata). Bulletin de la Societe royale Belge d’Entomologie 115, 190–193. open url image1

Fain A. (1981) Le genre Listrophoroides Hirst, 1923 (Acari, Astigmata, Atopomelidae) dans la region Orientale. Bulletin de l’Institut royal des Sciences naturelles de Belgique (Entomologie) 53, 3–122. open url image1

Fain A. (1994) Adaptation, specificity and host–parasite coevolution in mites (Acari). International Journal for Parasitology 24, 1273–1283.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Fain A., Bochkov A.V. (2003) New notes on the family Atopomelidae (Acari: Listrophoroidea). Annales du Musée royal de l’Afrique Centrale (Zoology) 291, 1–32. open url image1

Fain A., Domrow R. (1974) The subgenus Cytostethum Domrow (Acari: Atopomelidae): Multiple speciation on the marsupial Potorous tridactylus (Kerr). Australian Journal of Zoology 22, 549–572.
Crossref | GoogleScholarGoogle Scholar | open url image1

Fain A., Hyland K. E. (1980) New fur-mites (Acari) from mammals collected in Pakistan. International Journal of Acarology 6, 229–238. open url image1

Fain A., Lukoschus F. S. (1985) The genus Schizocarpus Trouessart, 1896 (Acari, Chirodiscidae) from the beaver Castor fiber L.: an example of multiple speciation. Entomologische Abhandlungen. Staatliches Museum fur Tierkunda Dresden 49, 35–68. open url image1

Fain A., Whitaker J. O. (1988) Mites of the genus Schizocarpus Trouessart, 1896 (Acari, Chirodiscidae) from Alaska and Indiana, USA. Acarologia 29, 395–409. open url image1

Farris J. S. (1969) A successive approximations approach to character weighting. Systematic Zoology 18, 374–385. open url image1

Gorog A., Sinaga M. H., Engstrom M. D. (2004) Vicariance or dispersal? Historical biogeography of three Sunda Shelf murine rodents (Maxomys surifer, Leopoldamys sabanus and Maxomys whiteheadi). Biological Journal of the Linnean Society 81, 91–109.
Crossref | GoogleScholarGoogle Scholar | open url image1

Grandjean F. (1939) La chaetotaxie des pattes chez les Acaridiae. Bulletin de la Societe Zoologique de France 64, 50–60. open url image1

Griffiths D. A., Atyeo W. T., Norton R. A., Lynch C. A. (1990) The idiosomal chaetotaxy of astigmatid mites. Journal of Zoology 220, 1–32. open url image1

Heaney L. R. (1986) Biogeography of mammals in SE Asia: estimates of rates of colonization, extinction, and speciation. Biological Journal of Linnean Society 28, 127–165. open url image1

Hirst S. (1923) On some new or little known species of Acari. Proceedings of the Zoological Society of London 1923, 971–1000. open url image1

Jansa S. A., Weksler M. (2004) Phylogeny of muroid rodents: relationships within and among major lineages as determined by IRBP gene sequences. Molecular Phylogenetics and Evolution 31, 256–276.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Johnson K. P., Drown D. M., Clayton D. H. (2001) A data-based parsimony method of cophylogenetic analysis. Zoologica Scripta 30, 79–87.
Crossref | GoogleScholarGoogle Scholar | open url image1

Klompen J. S. H. (1992) Phylogenetic relationships in the mite family Sarcoptidae (Acari: Astigmata). Miscellaneous Publications Museum of Zoology University of Michigan 180, 1–154. open url image1

Klompen J. S. H. (1993) Phylogenetic relationships in the skin-inhabiting Sarcoptoidea (Acari: Astigmata). Systematic Parasitology 24, 17–33.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lawrence R. F. (1951) New fur mites from south-African mammals. Annals of the Natal Museum 12, 91–133. open url image1

Lawrence R. F. (1954) Two new fur-mites from rodents. Journal of the Entomological Society of South Africa 17, 38–46. open url image1

Medway G. (1972). The Quaternary mammals of Malesia: a review. In ‘The Quaternary Era in Malesia. Transactions of the Second Aberbeen-Hull Symposium on Malesian Ecology’. (Eds P. Ashton and M. Ashton.) pp. 63–83. (University of Hull: Aberbeen, Malaysia.)

Mironov S. V., Dabert J. (1999) Phylogeny and co-speciation in feather mites of the subfamily Avenzoariinae (Analgoidea: Avenzoariidae). Experimental & Applied Acarology 23, 525–549.
Crossref | GoogleScholarGoogle Scholar | open url image1

Musser G. G., and Carleton M. D. (1993). Family Muridae. In ‘Mammal Species of the World’. 4th edn. (Eds D. E. Wilson and D. M. Reeder.) pp. 501–755. (Smithsonian Institution Press: Washington, DC, USA.)

Musser G. G., and Carleton M. D. (in press). Superfamily Muroidea. In ‘Mammal Species of the World’. 3rd edn. (Eds D. E. Wilson and D. M. Reeder.) (Johns Hopkins University Press: Baltimore, MD, USA.)

Nixon K. C. (2000). ‘WinClada. Version 0.9. 0.9.99m24.’ Program and documentation available online at: www.cladistics.com/ (verified October 2005). (Ithaca: New York, USA.)

OConnor B. M. (1982). Astigmata. In ‘Synopsis and Classification of Living Organisms. Vol. 2’. (Ed. S. B. Parker.) pp. 146–169. (McGraw-Hill: New York, USA.)

OConnor B. M. (1987) Host associations and coevolutionary relationships of astigmatid mite parasites of New World Primates. 1. Families Psoroptidae and Audycoptidae. Fieldiana Zoology 39, 245–260. open url image1

Page R. D. M. (1988) Quantitative cladistic biogeography: constructing and comparing area cladograms. Systematic Zoology 37, 254–270. open url image1

Page R. D. M. (1998). ‘TreeView. Version 1.5.2.’ (University of Glasgow: Glasgow, UK.)

Page R. D. M. (2001). ‘NDE: NEXUS Data Editor 0.5.0.’ (University of Glasgow: Glasgow, UK.)

Radford Ch. D. (1942) New parasitic mites (Acarina). Parasitology 34, 295–307. open url image1

Radford Ch. D. (1944) New parasitic mites (Acarina) from rodents. Parasitology 35, 161–166. open url image1

Ramery R. R., Kelley S. T., Boyce W. M., Farrell B. D. (2000) Phylogeny and host specificity of psoroptic mange mites (Acarina: Psoroptidae) as indicated by ITS sequence data. Journal of Medical Entomology 37, 791–796.
PubMed |
open url image1

Ridder-Numan J. (1998). Historical biogeography of Spatholobus (Leguminonsae-Papilionoideae) and allies in SE Asia. In ‘Biogeography and Geological Evolution of SE Asia’. (Eds J. D. Holloway and R. Hall.) pp. 259–277. (Backhuys: Leiden, The Netherlands.)

Ruedas L. A., Kirsch J. A. W. (1997) Systematics of Maxomys Sody, 1936 (Rodentia: Muridae: Murinae): DNA/DNA hybridization studies of some Borneo-Javan species and allied Sundaic and Australo-Papuan genera. Biological Journal of the Linnean Society 61, 385–408.
Crossref | GoogleScholarGoogle Scholar | open url image1

Sanderson M. J., Donoghue M. J. (1989) Patterns of variation in levels of homoplasy. Evolution; International Journal of Organic Evolution 43, 1781–1795. open url image1

Sorenson M. D. (1999). ‘TreeRot. Version 2.’ (University of Boston: Boston, MA, USA.)

Steppan S. J., Adkins R. M., Anderson J. (2004) Phylogeny and divergence-date estimates of rapid radiations in muroid rodents based on multiple nuclear genes. Systematic Biology 53, 533–553.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Suzuki H., Shimada T., Terashima M., Tsuchiya K., Aplin K. P. (2004) Temporal, spatial, and ecological modes of evolution of Eurasian Mus based on mitochondrial and nuclear gene sequences. Molecular Phylogenetics and Evolution 33, 626–646.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Swofford D. L. (2001). ‘PAUP. Phylogenetic Analysis Using Parsimony (* and Other Methods). Version 4.’ (Sinauer Associates: Sunderland, MA, USA.)

Trouessart E. L. (1893) Notes sur les Sarcoptides pilicoles (Listrophorinae). Compte Rendu hebdomadaire des séances et mémoires de la Société de Biologie 5, 698–700. open url image1

Verneau O., Catzefis F., Furano A. V. (1997) Determination of the evolutionary relationships in Rattus sensu lato (Rodentia: Muridae) using L1 (Line-1) amplification events. Journal of Molecular Evolution 45, 424–436.
PubMed |
open url image1

Watts C. H. S. (1983). Mice and rats. In ‘The Australian Museum Complete Book of Australian Mammals: The National Photographic Index of Australian Wildlife’. (Ed. K. Straham.) pp. 365–456. (Angus and Robertson: London, UK.)

Yeates D. K. (1992) Why remove autapomorphies? Cladistics 8, 387–389.
Crossref | GoogleScholarGoogle Scholar | open url image1