Abstract
Land use and land cover (LULC) change-especially habitat disruption-has long been linked to zoonotic disease emergence, yet direct empirical evidence remains limited. Using new spatially disaggregated data, this study offers the clearest evidence to date that fire-linked vegetation loss significantly increases zoonotic risk in forest landscapes, but not in agricultural or other-use areas. Monthly vegetation anomalies, captured via NDVI deviations, are tracked across landscape types. A quasi-experimental mediation design estimates the indirect effect of fire on outbreaks through vegetation loss. Results show that in forests, fire-driven vegetation decline is associated with increased outbreak rates, while no significant effects appear in agricultural or other zones. Fires-including slash-and-burn practices and uncontrolled natural fires-hence play a key role in shaping zoonotic risk. The results underscore the need for integrated fire management and land-use strategies to reduce spillover potential and align public health with climate and conservation goals.