Letter. Climate change and the global malaria recession
Letter. Climate change and the global malaria recession
The current and potential future impact of climate change on malaria is of major public health interest. The proposed effects of rising global temperatures on the future spread and intensification of the disease and on existing malaria morbidity and mortality rates, substantively influence global health policy. The contemporary spatial limits of Plasmodium falciparum malaria and its endemicity within this range8, when compared with comparable historical maps, offer unique insights into the changing global epidemiology of malaria over the last century. It has long been known that the range of malaria has contracted through a century of economic development and disease control9. Here, for the first time, we quantify this contraction and the global decreases in malaria endemicity since approximately 1900. We compare the magnitude of these changes to the size of effects on malaria endemicity proposed under future climate scenarios and associated with widely used public health interventions. Our findings have two key and often ignored implications with respect to climate change and malaria. First, widespread claims that rising mean temperatures have already led to increases in worldwide malaria morbidity and mortality are largely at odds with observed decreasing global trends in both its endemicity and geographic extent. Second, the proposed future effects of rising temperatures on endemicity are at least one order of magnitude smaller than changes observed since about 1900 and up to two orders of magnitude smaller than those that can be achieved by the effective scale-up of key control measures. Predictions of an intensification of malaria in a warmer world, based on extrapolated empirical relationships or biological mechanisms, must be set against a context of a century of warming that has seen marked global declines in the disease and a substantial weakening of the global correlation between malaria endemicity and climate.
342-345
Gething, Peter W.
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Smith, David L.
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Patil, Anand P.
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Tatem, Andrew J.
6c6de104-a5f9-46e0-bb93-a1a7c980513e
Snow, Robert W.
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Hay, Simon I.
471d3ae4-a3c1-4d29-93e3-a90d44471b00
20 May 2010
Gething, Peter W.
6afb7d8c-8816-4c03-ae73-55951c8b197f
Smith, David L.
5c918948-ded2-42d8-82c1-a746a4bc3b6e
Patil, Anand P.
be82786d-85c0-48fb-817a-e3b319faac90
Tatem, Andrew J.
6c6de104-a5f9-46e0-bb93-a1a7c980513e
Snow, Robert W.
7ff98228-6657-4b33-9793-b7f91a06c187
Hay, Simon I.
471d3ae4-a3c1-4d29-93e3-a90d44471b00
Gething, Peter W., Smith, David L., Patil, Anand P., Tatem, Andrew J., Snow, Robert W. and Hay, Simon I.
(2010)
Letter. Climate change and the global malaria recession.
Nature, 465 (7296), .
(doi:10.1038/nature09098).
(PMID:20485434)
Abstract
The current and potential future impact of climate change on malaria is of major public health interest. The proposed effects of rising global temperatures on the future spread and intensification of the disease and on existing malaria morbidity and mortality rates, substantively influence global health policy. The contemporary spatial limits of Plasmodium falciparum malaria and its endemicity within this range8, when compared with comparable historical maps, offer unique insights into the changing global epidemiology of malaria over the last century. It has long been known that the range of malaria has contracted through a century of economic development and disease control9. Here, for the first time, we quantify this contraction and the global decreases in malaria endemicity since approximately 1900. We compare the magnitude of these changes to the size of effects on malaria endemicity proposed under future climate scenarios and associated with widely used public health interventions. Our findings have two key and often ignored implications with respect to climate change and malaria. First, widespread claims that rising mean temperatures have already led to increases in worldwide malaria morbidity and mortality are largely at odds with observed decreasing global trends in both its endemicity and geographic extent. Second, the proposed future effects of rising temperatures on endemicity are at least one order of magnitude smaller than changes observed since about 1900 and up to two orders of magnitude smaller than those that can be achieved by the effective scale-up of key control measures. Predictions of an intensification of malaria in a warmer world, based on extrapolated empirical relationships or biological mechanisms, must be set against a context of a century of warming that has seen marked global declines in the disease and a substantial weakening of the global correlation between malaria endemicity and climate.
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Published date: 20 May 2010
Organisations:
PHEW – P (Population Health), Population, Health & Wellbeing (PHeW)
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Local EPrints ID: 341191
URI: http://eprints.soton.ac.uk/id/eprint/341191
ISSN: 0028-0836
PURE UUID: 6753ccba-7ace-4e03-b96e-d9916bea283d
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Date deposited: 17 Jul 2012 13:17
Last modified: 15 Mar 2024 03:43
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Author:
Peter W. Gething
Author:
David L. Smith
Author:
Anand P. Patil
Author:
Robert W. Snow
Author:
Simon I. Hay
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