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Review
. 2016 Aug 19:5:F1000 Faculty Rev-2040.
doi: 10.12688/f1000research.8766.1. eCollection 2016.

The rise and fall of infectious disease in a warmer world

Kevin D Lafferty  1 Erin A Mordecai  2
Affiliations
Review

The rise and fall of infectious disease in a warmer world

Kevin D Lafferty et al. F1000Res. .

Abstract

Now-outdated estimates proposed that climate change should have increased the number of people at risk of malaria, yet malaria and several other infectious diseases have declined. Although some diseases have increased as the climate has warmed, evidence for widespread climate-driven disease expansion has not materialized, despite increased research attention. Biological responses to warming depend on the non-linear relationships between physiological performance and temperature, called the thermal response curve. This leads performance to rise and fall with temperature. Under climate change, host species and their associated parasites face extinction if they cannot either thermoregulate or adapt by shifting phenology or geographic range. Climate change might also affect disease transmission through increases or decreases in host susceptibility and infective stage (and vector) production, longevity, and pathology. Many other factors drive disease transmission, especially economics, and some change in time along with temperature, making it hard to distinguish whether temperature drives disease or just correlates with disease drivers. Although it is difficult to predict how climate change will affect infectious disease, an ecological approach can help meet the challenge.

Keywords: climate change; ecology; infectious disease.

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Conflict of interest statement

The authors declare that they have no competing interests. No competing interests were disclosed. No competing interests were disclosed.

Figures

Figure 1.
Figure 1.. A thermal performance curve for a hypothetical ectotherm.
All species, whether free-living or parasitic, rise and fall with temperature. Performance rises slowly from the critical thermal minimum (CTmin) to a thermal optimum (To), declining sharply to the critical thermal maximum (CTmax).
See this image and copyright information in PMC

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