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Disentangling local and global climate drivers in the population dynamics of mosquito-borne infections

Bernard Cazelles, Kévin Cazelles, Huaiyu Tian, Mario Chávez, Mercedes Pascual

2023Science Advances27 citationsDOIOpen Access PDF

Abstract

Identifying climate drivers is essential to understand and predict epidemics of mosquito-borne infections whose population dynamics typically exhibit seasonality and multiannual cycles. Which climate covariates to consider varies across studies, from local factors such as temperature to remote drivers such as the El Niño-Southern Oscillation. With partial wavelet coherence, we present a systematic investigation of nonstationary associations between mosquito-borne disease incidence and a given climate factor while controlling for another. Analysis of almost 200 time series of dengue and malaria around the globe at different geographical scales shows a systematic effect of global climate drivers on interannual variability and of local ones on seasonality. This clear separation of time scales of action enhances detection of climate drivers and indicates those best suited for building early-warning systems.

Topics & Concepts

SeasonalityClimatologyPopulationEnvironmental scienceClimate changeGeographyWarning systemEcologyBiologyEnvironmental healthComputer scienceMedicineGeologyTelecommunicationsMosquito-borne diseases and controlViral Infections and VectorsClimate Change and Health Impacts
Disentangling local and global climate drivers in the population dynamics of mosquito-borne infections | Litcius