BackgroundCo-infection with multiple parasite species is commonly observed in nature and interspecific interactions are likely to occur in parasite infracommunities. Such interactions may affect the distribution of parasites among hosts but also the response of infracommunities to perturbations. However, the response of infracommunities to perturbations has not been well studied experimentally for ectoparasite communities of small mammal hosts.MethodsIn the current study we used experimental perturbations of the ectoparasite infracommunity of sengis from Africa. We suppressed tick recruitment by applying an acaride and monitored the effects on the ectoparasite community.ResultsOur treatment affected the target as well as two non-target species directly. The experimental removal of the dominant tick (Rhipicephalus spp.) resulted in increases in the abundance of chiggers and lice. However, while these effects were short-lived in chiggers, which are questing from the environment, they were long-lasting for lice which spend their entire life-cycle on the host. In addition, the recruitment rates of some ectoparasite species were high and did not always correspond to total burdens observed.ConclusionThese findings indicate that infracommunity interactions may contribute to patterns of parasite burdens. The divergent responses of species with differing life-history traits suggest that perturbation responses may be affected by parasite life-history and that the ectoparasite infracommunity of sengis may lack resilience to perturbations. The latter observation contrasts with the high resilience reported previously for endoparasite communities and also suggests that anti-parasite treatments can affect the distribution of non-target species.Electronic supplementary materialThe online version of this article (doi:10.1186/s13071-016-1342-7) contains supplementary material, which is available to authorized users.
Limiting resources often differ between males and females. Reproductive success in females is constrained by resources such as food and shelter, while the availability of receptive females determines male reproductive success. In addition to limiting resources, low intra‐sexual tolerances among females can affect their spacing. High intolerances coinciding with low population densities have been suggested as a cause for the evolution of monogamy in mammals, but the evidence for female intolerance is limited. We investigated long‐term space use patterns (measured as home range sizes and centers of activity) in a wild population of eastern rock sengis (Elephantulus myurus) from Limpopo, South Africa. Between March 2012 and March 2016, we recorded capture locations for 93 sengis and home range size for 22 sengis and evaluated the contributions of study year, sex, and season on these measures. Sex had no significant effect on home range size, but ranges were significantly greater during the breeding compared to the non‐breeding season, consistent with the increased energetic demands during reproduction. We found corroborative support for the role of energetic demands on home range size fluctuations. The activity centers of female–female dyads were further apart than those of male–male or mixed‐sex dyads, suggesting lower female–female tolerances in the study species. Our results offer evidence that intolerances may affect female spacing behavior and may have contributed to the evolution of monogamy in sengis.
Fourteen microsatellite loci were developed for the eastern rock sengi, Elephantulus myurus Thomas & Schwann, 1906 by incorporating genetic diversity from across its range in South Africa. Sengis are small mammals belonging to the order Macroscelidea, which comprises 19 species, all of which are endemic to Africa. The loci were amplified in 66 individuals from six localities. An average of 10.5 alleles per locus were identified, with observed and expected heterozygosity values ranging from 0.081-0.909 and 0.484-0.885, respectively. 1 We also investigated cross-species amplification within the family and found variation in amplification success for five different species. The preliminary results from these amplification efforts could aid further studies into aspects of species diversity and biology. The markers described here represent the first set of variable nuclear markers for the genus Elephantulus, and, together with a set of 8 recently developed markers for Rhynchocyon petersi, Bocage 1880, the first markers for the Order Macroscelidea.
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