排序方式: 共有107条查询结果,搜索用时 15 毫秒
101.
Luther van der Mescht Elizabeth M. Warburton Irina S. Khokhlova Michal Stanko Maxim V. Vinarski Natalia P. Korallo-Vinarskaya Boris R. Krasnov 《International journal for parasitology》2018,48(11):857-866
We tested whether biogeographic patterns characteristic for biological communities can also apply to populations and investigated geographic patterns of variation in abundance of ectoparasites (fleas and mites) collected from bodies of their small mammalian hosts (rodents and shrews) in the Palearctic at continental, regional and local scales. We asked whether (i) there is a relationship between latitude and abundance and (ii) similarity in abundance follows a distance decay pattern or it is better explained by variation in extrinsic biotic and abiotic factors. We analysed the effect of latitude on mean intraspecific abundance using general linear models including proportional abundance of its principal host as an additional predictor variable. Then, we examined the relative effect of geographic distance, biotic and abiotic dissimilarities among regions, subregions or localities on the intraspecific dissimilarity in abundance among regions, subregions or localities using Generalized Dissimilarity Modelling. We found no relationship between latitude and intraspecific flea or mite abundance. In both taxa, environmental dissimilarity explained the largest part of the deviance of spatial variation in abundance, whereas the effect of the dissimilarity in the principal host abundance was of secondary importance and the effect of geographic distance was minor. These patterns were generally consistent across the three spatial scales, although environmental variation and dissimilarity in principal host abundance were equally important at the local scale in fleas but not in mites. We conclude that biogeographic patterns related to latitude and geographic distance do not apply to spatial variation of ectoparasite abundance. Instead, the geographic distribution of abundance in arthropod ectoparasites depends on their responses, mainly to the off-host environment and to a lesser extent the abundance of their principal hosts. 相似文献
102.
Elena N. Surkova Natalia P. Korallo-Vinarskaya Maxim V. Vinarski Michal Stanko Elizabeth M. Warburton Luther van der Mescht Irina S. Khokhlova Boris R. Krasnov 《International journal for parasitology》2018,48(12):969-978
The aims of this study were to determine whether sexual size dimorphism in fleas and gamasid mites (i) conforms to Rensch’s rule (allometry of sexual size dimorphism) and (ii) covaries with sex ratio in infrapopulations (conspecific parasites harboured by an individual host), xenopopulations (conspecific parasites harboured by a population of a given host species in a locality) and suprapopulations (conspecific parasites harboured by an entire host community in a locality). Rensch’s rule in sexual size dimorphism was tested across 150 flea and 55 mite species, whereas covariation between sexual size dimorphism and sex ratio was studied using data on ectoparasites collected from small mammalian hosts in Slovakia and western Siberia. For fleas, we controlled for the confounding effect of phylogeny. The slope of the linear regression of female size on male size was significantly smaller than 1 in fleas, but did not differ from 1 in mites. The proportion of males in flea infrapopulations significantly increased with an increase in the female-to-male body size ratio. The same was true for obligatory haematophagous mites. No relationship between sex ratio and sexual size dimorphism was found for xenopopulations of either taxon or for mite suprapopulations. However, when controlling for the confounding effect of phylogeny, a significant negative correlation between sex ratio and sexual size dimorphism was revealed for flea suprapopulations. We conclude that (i) some macroecological patterns differ between ectoparasite taxa exploiting the same hosts (allometry in sexual size dimorphism), whereas other patterns are similar (sexual size dimorphism-sex ratio relationship in infrapopulations), and (ii) some patterns are scale-dependent and may demonstrate the opposite trends in parasite populations at different hierarchical levels. 相似文献
103.
Abundance of a species in a location results from the interplay between the intrinsic properties of that species and the extrinsic
properties, both biotic and abiotic, of the local habitat. Intrinsic factors promote among-population stability in abundance,
whereas extrinsic factors generate variation among populations of a species. We studied (a) repeatability and (b) the effect
of abundance and species richness of small mammals on the level of their infestation by larvae and nymphs of Ixodes ricinus (ecological generalist) and Ixodes trianguliceps (ecological specialist). We asked if tick infestation parameters are characteristic (=repeatable) for a particular host species
or a particular stage of a particular tick species. We also asked how abundance and diversity of hosts affect the level of
tick infestation on a particular host species. We predicted that the dilution effect (decrease in tick infestation levels
with an increase of host abundance and/or species richness) will be better expressed in an ecological generalist, I. ricinus, than in an ecological specialist, I. trianguliceps. We found that (a) tick abundance, prevalence and aggregation were generally repeatable within tick species/stage; (b) tick
abundance and prevalence, but not the aggregation level, were repeatable within host species; (c) the proportion of variance
among samples explained by the differences between tick species and stages (as opposed to within-tick species and stage) was
higher than that explained by the differences between host species (as opposed to within host species); and (d) the relationship
between tick infestation parameters and host abundance and diversity revealed the dilution effect for I. ricinus but not for I. trianguliceps. 相似文献
104.
105.
106.
Blood parasites of the striped field mouse Apodemus agrarius and their morphological characteristics
Grzegorz Karbowiak Michal Stanko Jana Fri?ová Irena Wita Joanna Hapunik Branislav Pe?ko 《Biologia》2009,64(6):1219-1224
Blood parasites of Apodemus agrarius were investigated in Eastern Slovakia during 1998–2005. The following parasitic species were detected: Trypanosoma grosi, Babesia microti-like piroplasms and Bartonella sp. Trypanosoma grosi was the most common species, with an infection prevalence of 12.7%. Trypanosomes were morphologically typical of the lewisi group, however, they were bigger than T. grosi described in A. flavicollis and A. sylvaticus. The differences analysed by nested analysis of variance were statistically significant. Pleomorphism was not observed. Infections
with piroplasms were detected only at two sites, with an intensity of infection not exceeding 0.1%. The morphology of the
piroplasms was different from those typical of B. microti. Bartonella occurred at two sites in 0.81% of the animals sampled. The prevalence of infection had a seasonal pattern throughout the
study years. Trypanosomes occurred from July to November, with a peak in September, piroplasms occurred in May and June, and
Bartonella sp. from May to July. 相似文献
107.