Abstract
The host specificity and population genetic structure of the symbiotic water mites Unionicola foili — from the host mussel Utterbackia imbecillis — and Unionicola formosa — from the mussels Pyganodon cataracta, P. grandis and Anodonta suborbiculata — were examined over a broad geographical scale in order to determine the extent to which specialization by these water mites is structured geographically. Behavioral responses of U. foili and U. formosa were highly host-species specific, with adults of both species exhibiting negative phototaxis in the presence of a chemical factor from the species of mussel with which the mites had been associated in the field. Photobehavior of these water mites in the presence of water from a non-host mussel varied depending on the species in question. Although U. foili from U. imbecillis exhibited negative phototaxis in water modified by A. suborbiculata, mites from this latter host did not exhibit a directional response in U. imbecillis water. Unionicola foili and U. formosa from A. suborbiculata were positively phototactic when they were exposed to water modified by either species of Pyganodon. The photoresponse of U. formosa from P. cataracta and P. grandis was positive in the presence of water modified by U. imbecillis and A. suborbiculta. However, these mussel-mites showed no directional response in water modified by their alternate species of Pyganodon. Unionicola foili and the host-associated populations of U. formosa were examined for allozyme variation at eight loci to determine the pattern and degree of genetic variation. There was a high degree of genetic differentiation when mite populations from the two species of Pyganodon were compared with U. foili or U. formosa from A. suborbiculata. These populational groupings were fixed for different alleles at two enzyme loci. The results of this study indicate that populations of U. formosa from P. cataracta and P. grandis are reproductively isolated from U. foili from U. imbecillis and from U. formosa from A. suborbiculata, and contend that host specificity is an important mechanism in restricting gene flow among these populational groupings. Furthermore, this study indicates that specialization among unionicolid water mites can vary geographically, owing to differences in geographic distribution of available hosts and differences in host use.
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Edwards, D.D., Bogardus, R., Wilhite, N. (1999). Geographic differences in host specialization between the symbiotic water mites Unionicola formosa and U. foili (Acari: Unionicolidae). In: Bruin, J., van der Geest, L.P.S., Sabelis, M.W. (eds) Ecology and Evolution of the Acari. Series Entomologica, vol 55. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-1343-6_14
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DOI: https://doi.org/10.1007/978-94-017-1343-6_14
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