Abstract
Understanding the dynamics of zoonotic pathogens in their reservoir host populations is a prerequisite for predicting and preventing human disease epidemics. The human infection risk of Puumala hantavirus (PUUV) is highest in northern Europe, where populations of the rodent host (bank vole, Myodes glareolus) undergo cyclic fluctuations. We conducted a 7-year capture-mark-recapture study to monitor seasonal and multiannual patterns of the PUUV infection rate in bank vole populations exhibiting a 3-year density cycle. Infected bank voles were most abundant in mid-winter months during years of increasing or peak host density. Prevalence of PUUV infection in bank voles exhibited a regular, seasonal pattern reflecting the annual population turnover and accumulation of infections within each year cohort. In autumn, the PUUV transmission rate tracked increasing host abundance, suggesting a density-dependent transmission. However, prevalence of PUUV infection was similar during the increase and peak years of the density cycle despite a twofold difference in host density. This may result from the high proportion of individuals carrying maternal antibodies constraining transmission during the cycle peak years. Our exceptionally intensive and long-term dataset provides a solid basis on which to develop models to predict the dynamic public health threat posed by PUUV in northern Europe.
Highlights
Antibodies), which we expected to shed more light on within-host transmission of Puumala hantavirus (PUUV)
During the increase and peak phases, the highest abundances were reached at the end of the breeding season (August-October) while abundance remained low during the same period in low phases
Patterns of PUUV infection dynamics in cyclic bank voles were studied during the winter when most human nephropathia epidemica (NE) cases are reported in the boreal zone
Summary
Antibodies), which we expected to shed more light on within-host transmission of PUUV. We studied whether the accumulation or rate of PUUV infections differed between annual cohorts born in different cycle phases. For these purposes, we monitored PUUV infections in bank voles through nearly three vole cycles using a capture-mark-recapture method. PUUV infection dynamics were studied in detail during the winter when the incidence of human NE is highest in the boreal zone
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