Abstract
Hantavirus, a rodent-borne zoonotic pathogen, has a global distribution with 200,000 human infections diagnosed annually. In recent decades, repeated outbreaks of hantavirus infections have been reported in Eurasia and America. These outbreaks have led to public concern and an interest in understanding the underlying biological mechanisms. Here, we propose a climate-animal-Hantaan virus (HTNV) infection model to address this issue, using a unique dataset spanning a 54-y period (1960-2013). This dataset comes from Central China, a focal point for natural HTNV infection, and includes both field surveillance and an epidemiological record. We reveal that the 8-y cycle of HTNV outbreaks is driven by the confluence of the cyclic dynamics of striped field mouse (Apodemus agrarius) populations and climate variability, at both seasonal and interannual cycles. Two climatic variables play key roles in the ecology of the HTNV system: temperature and rainfall. These variables account for the dynamics in the host reservoir system and markedly affect both the rate of transmission and the potential risk of outbreaks. Our results suggest that outbreaks of HTNV infection occur only when climatic conditions are favorable for both rodent population growth and virus transmission. These findings improve our understanding of how climate drives the periodic reemergence of zoonotic disease outbreaks over long timescales.
Highlights
We reveal that the 8-y cycle of Hantaan virus (HTNV) outbreaks is driven by the confluence of the cyclic dynamics of striped field mouse (Apodemus agrarius) populations and climate variability, at both seasonal and interannual cycles
These findings suggest that the interannual variation in the hemorrhagic fever with renal syndrome (HFRS) epidemics over long timescales may be related to rodent population dynamics and climate variability
We have provided a formal framework to understand the transmission dynamics of hantaviruses, which could account for the ecology of this zoonotic pathogen
Summary
Our results suggest that outbreaks of HTNV infection occur only when climatic conditions are favorable for both rodent population growth and virus transmission These findings improve our understanding of how climate drives the periodic reemergence of zoonotic disease outbreaks over long timescales. Studies concerning the interannual variability of zoonotic epidemics have been limited and highly controversial, because of the scarcity of long-term records on both human disease cases and animal surveillance, and difficulties quantifying the role of environmental forcing in animal–human transmission systems. The role of climate forcing in the modulation of zoonotic dynamics has been highly controversial, due to the difficulty in quantifying the links between climate forcing, animal population dynamics, and disease dynamics We address this issue by using a unique field surveillance dataset from Central China, covering one-half century. Our results shed light on the drivers behind interannual variability and the dynamic patterns of disease ecology, and the links between interannual climate variability and the human–animal interface, adding up to 3-mo lead time over outbreak warnings
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