Abstract
Foci of tick-borne pathogens occur at fine spatial scales, and depend upon a complex arrangement of factors involving climate, host abundance and landscape composition. It has been proposed that the presence of hosts that support tick feeding but not pathogen multiplication may dilute the transmission of the pathogen. However, models need to consider the spatial component to adequately explain how hosts, ticks and pathogens are distributed into the landscape.In this study, a novel, lattice-derived, behavior-based, spatially-explicit model was developed to test how changes in the assumed perception of different landscape elements affect the outcome of the connectivity between patches and therefore the dilution effect. The objective of this study was to explain changes in the exposure rate (ER) of red deer to Anaplasma spp. under different configurations of suitable habitat and landscape fragmentation in the presence of variable densities of the potentially diluting host, wild boar. The model showed that the increase in habitat fragmentation had a deep impact on Habitat Sharing Ratio (HSR), a parameter describing the amount of habitat shared by red deer and wild boar, weighted by the probability of the animals to remain together in the same patch (according to movement rules), the density of ticks and the density of animals at a given vegetation patch, and decreased the dilution effect of wild boar on deer Anaplasma ER.The model was validated with data collected on deer, wild boar and tick densities, climate, landscape composition, host vegetation preferences and deer seropositivity to Anaplasma spp. (as a measure of ER) in 10 study sites in Spain. However, although conditions were appropriate for a dilution effect, empirical results did not show a decrease in deer ER in sites with high wild boar densities. The model showed that the HSR was the most effective parameter to explain the absence of the dilution effect. These results suggest that host habitat usage may weaken the predicted dilution effect for tick-borne pathogens and emphasize the importance of the perceptual capabilities of different hosts in different landscapes and habitat fragmentation conditions for predictions of dilution effects.
Highlights
The genus Anaplasma (Rickettsiales: Anaplasmataceae) contains tick-borne pathogens that are found exclusively within membranebound inclusions or vacuoles in the cytoplasm of both vertebrate and tick host cells [1,2]
We incorporated a spatial component to these models to examine the dilution effect of a potentially diluting host, wild boar, on deer Anaplasma exposure rate (ER)
The model developed was validated with empirical data and showed that the dilution effect was strongly sensitive to a combination of factors related to Habitat Sharing Ratio (HSR), the perception of habitat by hosts and their movement across the modelled lattices
Summary
The genus Anaplasma (Rickettsiales: Anaplasmataceae) contains tick-borne pathogens that are found exclusively within membranebound inclusions or vacuoles in the cytoplasm of both vertebrate and tick host cells [1,2]. A. marginale is host-specific for ruminants while A. phagocytophilum infects a wide range of hosts including rodents, ruminants, birds, felids, horses and donkeys, dogs and humans. Vertebrate hosts and male ticks develop persistent infections with Anaplasma spp. which, in turn, allows them to serve as a reservoir of infection. As they become persistently infected, vertebrate hosts remain seropositive for most of their life. Anaplasma are transmitted horizontally by ixodid ticks while transovarial transmission does not appear to occur. The broad geographic distribution, as well as the clinical and host tropism diversity of A. phagocytophilum strains suggests the presence of complex infection-transmission networks that may influence the epizootiology of the disease [3]
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