Open AccessJournal Article
Evolution of malaria in Africa for the past 40 years : Impact of climatic and human factors
Jean Mouchet,Sylvie Manguin,J Sircoulon,S. Laventure,Faye O,A W Onapa,Pierre Carnevale,J Julvez,Didier Fontenille +8 more
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Different malarial situations in Africa within the past 40 years are discussed in order to evaluate the impact of climatic and human factors on the disease.Abstract:
Different malarial situations in Africa within the past 40 years are discussed in order to evaluate the impact of climatic and human factors on the disease. North of the equator, more droughts and lower rainfall have been recorded since 1972; and in eastern and southern Africa, there have been alternating dry and wet periods in relation to El Nino. Since 1955, the increase in human population from 125 to 450 million has resulted in both expansion of land cultivation and urbanization. In stable malaria areas of West and Central Africa and on the Madagascar coasts, the endemic situation has not changed since 1955. However, in unstable malaria areas such as the highlands and Sahel significant changes have occurred. In Madagascar, cessation of malaria control programs resulted in the deadly epidemic of 1987-88. The same situation was observed in Swaziland in 1984-85. In Uganda, malaria incidence has increased more than 30 times in the highlands (1,500-1,800 m), but its altitudinal limit has not overcome that of the beginning of the century. Cultivation of valley bottoms and extension of settlements are in large part responsible for this increase, along with abnormally heavy rainfall that favored the severe epidemic of 1994. A similar increase in malaria was observed in neighboring highlands of Rwanda and Burundi, and epidemics have been recorded in Ethiopia since 1958. In contrast, in the Sahel (Niayes region, Senegal), stricken by droughts since 1972, endemic malaria decreased drastically after the disappearance of the main vector, Anopheles funestus, due to the destruction of its larval sites by cultivation. Even during the very wet year of 1995. An funestus did not reinvade the region and malaria did not increase. The same situation was observed in the Sahelian zone of Niger. Therefore, the temperature increase of 0.5 degree C during the last 2 decades cannot be incriminated as a major cause for these malaria changes, which are mainly due to the combination of climatic, human, and operational factors.read more
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References
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Climatic warming and increased malaria incidence in Rwanda
TL;DR: Temperature (especially mean minimum) predicted incidence best at higher altitudes where malaria had increased most and empirically derived relations were consistent with the estimated generation time of the disease and with the known sensitivity of the plasmodium parasite to temperature.
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Rainfall changes in Africa: 1931–1960 to 1961–1990
TL;DR: In this paper, two independent 30-year rainfall climatologies for Africa are constructed from 572 quality controlled station time series of monthly rainfall for the periods 1931-1960 and 1961-1990 and are constructed on a 5° grid.
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Global surface air temperature variations during the twentieth century: Part 1, spatial, temporal and seasonal details
Philip Jones,Keith R. Briffa +1 more
TL;DR: In this paper, an up-to-date review of instrumentally-recorded, seasonal, surface temperature change across the land and marine regions of the world during the twentieth century is presented.
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DDT, global strategies, and a malaria control crisis in South America
TL;DR: The recent actions to ban DDT, the health costs of such a ban, perspectives on DDT use in agriculture versus malaria control, and costs versus benefits of DDT and alternative insecticides are discussed.