Abstract

Infectious diseases can cause rapid population declines or species extinctions. Many pathogens of terrestrial and marine taxa are sensitive to temperature, rainfall, and humidity, creating synergisms that could affect biodiversity. Climate warming can increase pathogen development and survival rates, disease transmission, and host susceptibility. Although most host-parasite systems are predicted to experience more frequent or severe disease impacts with warming, a subset of pathogens might decline with warming, releasing hosts from disease. Recently, changes in El Niño–Southern Oscillation events have had a detectable influence on marine and terrestrial pathogens, including coral diseases, oyster pathogens, crop pathogens, Rift Valley fever, and human cholera. To improve our ability to predict epidemics in wild populations, it will be necessary to separate the independent and interactive effects of multiple climate drivers on disease impact.

Keywords

BiologyClimate changeEcologyBiotaBiodiversityPopulationGlobal warmingEnvironmental health

MeSH Terms

AnimalsAnimalsDomesticAnimalsWildBacterial Physiological PhenomenaClimateCommunicable DiseasesEmergingDisease OutbreaksDisease VectorsEcosystemFungiHumansInfectionsParasitesPlant DiseasesRisk FactorsSeasonsSeawaterTemperatureVirus Physiological Phenomena

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Publication Info

Year
2002
Type
review
Volume
296
Issue
5576
Pages
2158-2162
Citations
2681
Access
Closed

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2681
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Cite This

C. Drew Harvell, Charles E. Mitchell, Jessica R. Ward et al. (2002). Climate Warming and Disease Risks for Terrestrial and Marine Biota. Science , 296 (5576) , 2158-2162. https://doi.org/10.1126/science.1063699

Identifiers

DOI
10.1126/science.1063699
PMID
12077394

Data Quality

Data completeness: 81%