@article {96367, title = {Reproductive strategies of ectoparasites on small mammals}, journal = {Canadian Journal of Zoology}, volume = {66}, year = {1988}, month = {Apr-01-1988}, pages = {774-781}, abstract = {

A model of ectoparasitic reproductive strategies is presented. To be successful, an ectoparasite must either disperse to find a new host or stay on one host and produce its progeny during the lifetime of the host. Dispersion is facilitated by utilizing many host species and by waiting for the next host; these strategies prolong the generation time. Staying on the host is facilitated by shortening the generation time. Ectoparasites that repeatedly move on and off hosts are thus expected to have wide host preference spectra and long generation times while sedentary ectoparasites are expected to have narrow host preference spectra and short generation times. Population parameters of 27 ectoparasitic species (fleas, lice, mesostigmatic mites, and one ixodid tick species) on cyclic small mammal populations were investigated and a cluster analysis was performed. Three population parameters proved to be important and could be used to form a base for life-trait grouping of the ectoparasites: (i) the host preference spectra; (ii) the time lag between host and parasite peak abundance; and (iii) the intensity of the infestation. Three groups of ectoparasitic life traits were discernible: (i) species with narrow host preference spectra, no time lag (short ectoparasitic generation time), and major infestation: the Anoplura\–Laelapinae group; (ii) species with moderate to wide host preference spectra, 1-year time lag (long parasitic generation time), and minor infestation: the Siphonaptera\–Haemogamasinae group; (iii) one species, Ixodes trianguliceps, had moderate host preference spectrum, 2-year time lag, and moderate infestation. Ectoparasites, such as trombiculid mites and the tick Ixodes ricinus, which are not confined to small mammals, were missing or very rare on the cyclic small mammal populations. This was predicted by the model.

}, issn = {0008-4301, 1480-3283}, doi = {10.1139/z88-116}, url = {https://cdnsciencepub.com/doi/10.1139/z88-116}, author = {Lars Lundqvist} } @article {46505, title = {Dispersal in patchy environments: effect on the prevalence of small mammal ectoparasites}, journal = {Folia Parasitologica (Praha)}, volume = {34}, year = {1987}, month = {1987}, pages = {357 - 367}, abstract = {

Part-time ectoparasites on small mammals disperse via the habitat, while full-time parasites spread throughout the host population by direct contacts between host animals. It is therefore supposed that the effect of the natural environment is different for the two groups. This was studied as differences between observed and expected prevalence, the percentage of the infested host population, during different environmental conditions. Two possible mechanisms of such an effect were analysed, i.e. a) host selection and its change with host frequency and b) parasite migration and reproduction rates as reflected by the frequency distribution patterns on the hosts. As expected the prevalence of full-time ectoparasites (Anoplura and subfamily Laelapinae) could be predicted on the basis of host species frequencies during different environmental conditions, with the exception of one louse species (Hoplopleura acanthopus), because of its restricted distribution. Prediction was not possible for part-time ectoparasites (subfamily Hameogamasinae). Species of the subfamily Haemogamasinae were more catholic in host selection than species of Anoplura and subfamily Laelapinae. The haemogamasin mites changed host species to a greater extent than did Anoplura and Laelapinae. All haemogamasin mites had short-tailed frequency distribution patterns and all Anoplura and Laelapinae, except Hyperlaelaps microti, had long-tailed frequency distributions.

}, keywords = {animals, Anoplura, Finland, host parasite, Lice Infestations/epidemiology/parasitology/veterinary, mammal, Mite Infestations/epidemiology/parasitology/veterinary, Mites/physiology, Norway, Research Support, Non-U.S. Gov{\textquoteright}t, Sweden}, author = {Lars Lundqvist and Anders Edler} } @mastersthesis {42571, title = {Life tactics and distribution of small mammal ectoparasites (Anoplura, Siphonaptera and Acari) in northernmost Fennoscandia}, volume = {Doctoral Dissertation.}, year = {1985}, note = {No. 1763}, month = {1985}, school = {Lund, Sweden.}, keywords = {Beziehung zum Wirt, biology, ecology, Europe, Hoplopleura edentula, Insectivora, Polyplax, polyplax serrata, rodentia, Troester}, author = {Lars Lundqvist} } @conference {41909, title = {Small mammals and ectoparasites in Scandinavia}, booktitle = {Biocontrol of Rodents}, volume = {Lammi, Finland,}, year = {1974}, note = {No.1634}, month = {1974}, pages = {306 pp.}, keywords = {Europe, Rodentia., Troester}, author = {Brinck-Lindroth,G. and Anders Edler and Lars Lundqvist and Nilsson,A.} }