The role of non-viraemic transmission on the persistence and dynamics of a tick borne virus ? Louping ill in red grouse (Lagopus lagopus scoticus) and mountain hares (Lepus timidus)
Population Dynamics
Animals, Wild
612
Models, Biological
Disease-Free Survival
Encephalitis Viruses, Tick-Borne
Host-Parasite Interactions
Birds
03 medical and health sciences
0302 clinical medicine
Species Specificity
Disease Transmission, Infectious
Louping ill
Animals
co-feeding
Birth Rate
Disease Reservoirs
coupled differential equations
Sheep
Ixodes
Bird Diseases
multiple hosts
Hares
tick borne disease
3. Good health
Scotland
Louping Ill
Arachnid Vectors
Algorithms
DOI:
10.1007/s00285-002-0183-5
Publication Date:
2004-01-28T21:52:25Z
AUTHORS (4)
ABSTRACT
There exist many tick borne infections that are of either economic or public health interest. Mathematical models have previously been used to describe the dynamics of these infections. However it has recently come to light that there is an alternative mechanism for the transmission of these diseases that has not been considered in a modelling framework. This is transmission through ticks co-feeding on non-viraemic hosts. This paper extends a simple mathematical model to include this alternative transmission mechanism. The model is used to describe the dynamics of Louping ill virus in red grouse (the viraemic host) and hares (the non-viraemic host). However, these results are applicable to many other systems. The model is analysed using joint threshold density curves. It is found that the presence of a non-viraemic host allows the virus to persist more readily than it would in the presence of a host that simply amplified the tick population. More importantly, if the level of non-viraemic transmission is high enough the virus can persist in the absence of the viraemic host. This result has important implications for the control of tick borne diseases.
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