Reservoir displacement by an invasive rodent reduces Lassa virus zoonotic spillover risk.
Evan A EskewBrian H BirdBruno M GhersiJames BanguraAndrew J BasinskiEmmanuel AmaraMohamed A BahMarilyn C KanuOsman T KanuEdwin G LavalieVictor LungayWillie RobertMohamed A VandiElisabeth Fichet-CalvetScott L NuismerPublished in: Nature communications (2024)
The black rat (Rattus rattus) is a globally invasive species that has been widely introduced across Africa. Within its invasive range in West Africa, R. rattus may compete with the native rodent Mastomys natalensis, the primary reservoir host of Lassa virus, a zoonotic pathogen that kills thousands annually. Here, we use rodent trapping data from Sierra Leone and Guinea to show that R. rattus presence reduces M. natalensis density within the human dwellings where Lassa virus exposure is most likely to occur. Further, we integrate infection data from M. natalensis to demonstrate that Lassa virus zoonotic spillover risk is lower at sites with R. rattus. While non-native species can have numerous negative effects on ecosystems, our results suggest that R. rattus invasion has the indirect benefit of decreasing zoonotic spillover of an endemic pathogen, with important implications for invasive species control across West Africa.