Optimal temperature for malaria transmission is dramatically lower than previously predicted

Mordecai, Erin A.; Paaijmans, Krijn P.; Johnson, Leah R.; Balzer, Christian; Ben‐Horin, Tal; Moor, Emily de; McNally, Amy; Pawar, Samraat; Ryan, Sadie J.; Smith, Thomas C.; Lafferty, Kevin D.

doi:10.1111/ele.12015

articleEcology LettersOct 11, 2012Closed access

Optimal temperature for malaria transmission is dramatically lower than previously predicted

EAErin A. Mordecai KPKrijn P. Paaijmans LRLeah R. Johnson CBChristian Balzer TBTal Ben‐Horin

University of California, Santa Barbara · Pennsylvania State University · +6 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

The ecology of mosquito vectors and malaria parasites affect the incidence, seasonal transmission and geographical range of malaria. Most malaria models to date assume constant or linear responses of mosquito and parasite life-history traits to temperature, predicting optimal transmission at 31 °C. These models are at odds with field observations of transmission dating back nearly a century. We build a model with more realistic ecological assumptions about the thermal physiology of insects. Our model, which includes empirically derived nonlinear thermal responses, predicts optimal malaria transmission at 25 °C (6 °C lower than previous models). Moreover, the model predicts that transmission decreases…

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Topics & keywords

Topics

Keywords

Malaria
Transmission (telecommunications)
Ecology
Disease transmission
Biology
Odds
Climate change
Environmental science

UN Sustainable Development Goals

Climate action

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