Abstract:
A deterministic SEIR model of rift valley fever (RVF) with climate change parameters was considered to compute the basic
reproduction number R0 and investigate the impact of temperature and precipitation on R0. To study the effect of model
parameters to R0, sensitivity and elasticity analysis of R0 were performed. When temperature and precipitation effects are not
considered,R0 is more sensitive to the expected number of infected Aedes spp. due to one infected livestock andmore elastic to the
expected number of infected livestock due to one infected Aedes spp.When climatic data are used,R0 is found to bemore sensitive
and elastic to the expected number of infected eggs laid by Aedes spp. via transovarial transmission, followed by the expected
number of infected livestock due to one infected Aedes spp. and the expected number of infected Aedes spp. due to one infected
livestock for both regions Arusha and Dodoma. These results call for attention to parameters regarding incubation period, the
adequate contact rate of Aedes spp. and livestock, the infective periods of livestock and Aedes spp., and the vertical transmission in
Aedes species.
