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Divergent impacts of warming weather on wildlife disease risk across climates

Jeremy M. Cohen, Erin L. Sauer, Olivia Santiago, Samuel Spencer, Jason R. Rohr

2020Science185 citationsDOIOpen Access PDF

Abstract

Disease outbreaks among wildlife have surged in recent decades alongside climate change, although it remains unclear how climate change alters disease dynamics across different geographic regions. We amassed a global, spatiotemporal dataset describing parasite prevalence across 7346 wildlife populations and 2021 host-parasite combinations, compiling local weather and climate records at each location. We found that hosts from cool and warm climates experienced increased disease risk at abnormally warm and cool temperatures, respectively, as predicted by the thermal mismatch hypothesis. This effect was greatest in ectothermic hosts and similar in terrestrial and freshwater systems. Projections based on climate change models indicate that ectothermic wildlife hosts from temperate and tropical zones may experience sharp increases and moderate reductions in disease risk, respectively, though the magnitude of these changes depends on parasite identity.

Topics & Concepts

Climate changeWildlifeBiologyDiseaseHost (biology)Infectious disease (medical specialty)EcologyGlobal warmingWildlife diseaseOutbreakMedicineVirologyPathologySpecies Distribution and Climate ChangeAmphibian and Reptile BiologyVector-borne infectious diseases
Divergent impacts of warming weather on wildlife disease risk across climates | Litcius