Journal
TICKS AND TICK-BORNE DISEASES
Volume 12, Issue 4, Pages -Publisher
ELSEVIER GMBH
DOI: 10.1016/j.ttbdis.2021.101724
Keywords
Lyme disease; Dilution effect; Borrelia burgdorferi sensu stricto; Ixodes scapularis Say 1921; Mathematical model; Ticks
Categories
Funding
- Neukom Institute for Computational Science at Dartmouth College
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The literature on Lyme disease debates the impact of changing deer populations, which can both decrease and increase disease incidence. The balance of these effects depends on the relative population sizes of different host types and host preferences. Simulation results suggest that removing reservoir-incompetent hosts may reduce tick populations, with dilution effects at low reservoir-competent host populations and amplification effects at high reservoir-competent host populations.
The literature on Lyme disease includes a lively debate about the paradoxical role of changing deer populations. A decrease in the number of deer will both (1) reduce the incidence of Lyme disease by decreasing the host populations for ticks and therefore tick populations, and (2) enhance the incidence of Lyme disease by offering fewer reservoir-incompetent hosts for ticks, forcing the vector to choose reservoir-competent, and therefore possibly diseased, hosts to feed on. A review of field studies exploring the net impact of changing deer populations shows mixed results. In this manuscript, we investigate the hypothesis that the balance of these two responses to changing deer populations depends on the relative population sizes of reservoir-competent vs. reservoir-incompetent hosts and the presence of host preference in larval and adult stages. A temperature driven seasonal model of Borrelia burgdorferi sensu stricto (cause of Lyme disease) transmission among three host types (reservoir-competent infected and uninfected hosts, and reservoir-incompetent hosts) is constructed as a system of nonlinear ordinary differential equations. The model, which produces biologically reasonable results for both the tick vector Ixodes scapularis Say 1921 and the hosts, is used to investigate the effects of reservoir-incompetent host removal on both tick populations and disease prevalence for various relative population sizes of reservoir-competent hosts vs. reservoir-incompetent hosts. In summary, the simulation results show that the model with host preference appears to be more accurate than the one with no host preference. Given these results, we found that removal of adult I. scapularis(Say) hosts is likely to reduce questing nymph populations. At very low levels questing adult abundance may rise with lack of adult hosts. There is a dilution effect at low reservoir-competent host populations and there is an amplification effect at high reservoir-competent host populations.
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