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Projecting the risk of mosquito-borne diseases in a warmer and more populated world: a multi-model, multi-scenario intercomparison modelling study
Umeå University, Faculty of Medicine, Department of Public Health and Clinical Medicine, Section of Sustainable Health.
Umeå University, Faculty of Medicine, Department of Public Health and Clinical Medicine, Section of Sustainable Health.
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2021 (English)In: The Lancet Planetary Health, E-ISSN 2542-5196, Vol. 5, no 7, p. E404-E414Article in journal (Refereed) Published
Abstract [en]

Background: Mosquito-borne diseases are expanding their range, and re-emerging in areas where they had subsided for decades. The extent to which climate change influences the transmission suitability and population at risk of mosquito-borne diseases across different altitudes and population densities has not been investigated. The aim of this study was to quantify the extent to which climate change will influence the length of the transmission season and estimate the population at risk of mosquito-borne diseases in the future, given different population densities across an altitudinal gradient.

Methods: Using a multi-model multi-scenario framework, we estimated changes in the length of the transmission season and global population at risk of malaria and dengue for different altitudes and population densities for the period 1951-99. We generated projections from six mosquito-borne disease models, driven by four global circulation models, using four representative concentration pathways, and three shared socioeconomic pathways.

Findings: We show that malaria suitability will increase by 1·6 additional months (mean 0·5, SE 0·03) in tropical highlands in the African region, the Eastern Mediterranean region, and the region of the Americas. Dengue suitability will increase in lowlands in the Western Pacific region and the Eastern Mediterranean region by 4·0 additional months (mean 1·7, SE 0·2). Increases in the climatic suitability of both diseases will be greater in rural areas than in urban areas. The epidemic belt for both diseases will expand towards temperate areas. The population at risk of both diseases might increase by up to 4·7 additional billion people by 2070 relative to 1970-99, particularly in lowlands and urban areas.

Interpretation: Rising global mean temperature will increase the climatic suitability of both diseases particularly in already endemic areas. The predicted expansion towards higher altitudes and temperate regions suggests that outbreaks can occur in areas where people might be immunologically naive and public health systems unprepared. The population at risk of malaria and dengue will be higher in densely populated urban areas in the WHO African region, South-East Asia region, and the region of the Americas, although we did not account for urban-heat island effects, which can further alter the risk of disease transmission.

Place, publisher, year, edition, pages
Elsevier, 2021. Vol. 5, no 7, p. E404-E414
National Category
Public Health, Global Health, Social Medicine and Epidemiology Earth and Related Environmental Sciences
Research subject
Public health
Identifiers
URN: urn:nbn:se:umu:diva-187234DOI: 10.1016/S2542-5196(21)00132-7ISI: 000675402600006PubMedID: 34245711Scopus ID: 2-s2.0-85109456580OAI: oai:DiVA.org:umu-187234DiVA, id: diva2:1592268
Funder
Swedish Research Council Formas, 2018-05973Swedish Research Council Formas, 2017-01742Available from: 2021-09-08 Created: 2021-09-08 Last updated: 2022-01-03Bibliographically approved

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Sewe, Maquins OdhiamboSjödin, HenrikRocklöv, Joacim

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