Top

Malaria Journal

Published in:

Open Access 01-12-2019 | Malaria | Research

Environmental and meteorological factors linked to malaria transmission around large dams at three ecological settings in Ethiopia

Authors: Solomon Kibret, G. Glenn Wilson, Darren Ryder, Habte Tekie, Beyene Petros

Published in: Malaria Journal | Issue 1/2019

Abstract

Background

A growing body of evidence suggests that dams intensify malaria transmission in sub-Saharan Africa. However, the environmental characteristics underpinning patterns in malaria transmission around dams are poorly understood. This study investigated local-scale environmental and meteorological variables linked to malaria transmission around three large dams in Ethiopia.

Methods

Monthly malaria incidence data (2010–2014) were collected from health centres around three dams located at lowland, midland and highland elevations in Ethiopia. Environmental (elevation, distance from the reservoir shoreline, Normalized Difference Vegetation Index (NDVI), monthly reservoir water level, monthly changes in water level) and meteorological (precipitation, and minimum and maximum air temperature) data were analysed to determine their relationship with monthly malaria transmission at each dam using correlation and stepwise multiple regression analysis.

Results

Village distance to reservoir shoreline (lagged by 1 and 2 months) and monthly change in water level (lagged by 1 month) were significantly correlated with malaria incidence at all three dams, while NDVI (lagged by 1 and 2 months) and monthly reservoir water level (lagged by 2 months) were found to have a significant influence at only the lowland and midland dams. Precipitation (lagged by 1 and 2 months) was also significantly associated with malaria incidence, but only at the lowland dam, while minimum and maximum air temperatures (lagged by 1 and 2 months) were important factors at only the highland dam.

Conclusion

This study confirmed that reservoir-associated factors (distance from reservoir shoreline, monthly average reservoir water level, monthly water level change) were important predictors of increased malaria incidence in villages around Ethiopian dams in all elevation settings. Reservoir water level management should be considered as an additional malaria vector control tool to help manage malaria transmission around dams.

Available only for authorised users

WHO. World Malaria Report 2018. Geneva: World Health Organization; 2018.

Patz JA, Olson SH. Malaria risk and temperature: influences from global climate change and local land use practices. Proc Natl Acad Sci USA. 2006;103:5635–6.CrossRef

Stern DI, Gething PW, Kabaria CW, Temperley WH, Noor AM, Okiro EA, et al. Temperature and malaria trends in highland East Africa. PLoS ONE. 2011;6:e24524.CrossRef

Jobin W. Dams and disease: Ecological design and health impacts of large dams, canals and irrigation systems. London: E&FN Spon; 1999.CrossRef

Keiser J, de Castro MC, Maltese MF, Bos R, Tanner M, Singer BH, et al. Effect of irrigation and large dams on the burden of malaria on a global and regional scale. Am J Trop Med Hyg. 2005;72:392–406.CrossRef

Kibret S, Wilson GG, Ryder D, Tekie H, Petros B. The influence of dams on malaria transmission in sub-Saharan Africa. EcoHealth. 2015;14:408–19.CrossRef

Atangana S, Foumbi J, Charlois M, Ambroise-Thomas P, Ripert C. Epidemiological study of onchocerciasis and malaria in Bamendjin dam area (Cameroon). Med Trop (Mars). 1979;39:537–43 (in French).PubMed

Freeman T. Investigation into the 1994 malaria outbreak of the Manyuchi Dam area of Mbberengwa and Mwenezi Districts, Zimbabwe. 1994.

Ghebreyesus TA, Haile M, Witten KH, Getachew A, Ambachew M, Yohannes AM, et al. Incidence of malaria among children living near dams in northern Ethiopia: community based incidence survey. BMJ. 1999;319:663–6.CrossRef

10.

Lautze J, McCartney M, Kirshen P, Olana D, Jayasinghe G, Spielman A. Effect of a large dam on malaria risk: the Koka Reservoir in Ethiopia. Trop Med Int Health. 2007;12:982–9.CrossRef

11.

Mba CJ, Aboh IK. Prevalence and management of malaria in Ghana: a case study of Volta region. Afr Pop Studies. 2007;22:137–71.

12.

Kibret S, Lautze J, Boelee E, McCartney M. How does an Ethiopian dam increase malaria? Entomological determinants around the Koka reservoir. Trop Med Int Health. 2012;17:1320–8.CrossRef

13.

Yewhalaw D, Getachew Y, Tushune K, Kassahun W, Duchateau L, Speybroeck N. The effect of dams and seasons on malaria incidence and Anopheles abundance in Ethiopia. BMC Infect Dis. 2013;13:161.CrossRef

14.

Kibret S, Wilson GG, Ryder D, Tekie H, Petros B. Malaria impact of large dams at different eco-epidemiological settings in Ethiopia. Trop Med Health. 2017;45:4.CrossRef

15.

Kibret S, Lautze J, McCartney M, Wilson GG, Nhamo L. Malaria impact of large dams in sub-Saharan Africa: maps, estimates and predictions. Malar J. 2015;14:339.CrossRef

16.

Lindblade KA, Walker ED, Wilson ML. Early warning of malaria epidemics in African highlands using Anopheles (Diptera: Culicidae) indoor resting density. J Med Ent. 2000;37:664–74.CrossRef

17.

Coetzee M, Craig M, le Sueur D. Distribution of African malaria mosquitoes belonging to the Anopheles gambiae complex. Parasitol Today. 2000;16:74–7.CrossRef

18.

Sinka ME, Bangs MJ, Manguin S, Coetzee M, Mbogo CM, Hemingway J. The dominant Anopheles vectors of human malaria in Africa, Europe and the Middle East: occurrence data, distribution maps and bionomic précis. Parasit Vectors. 2010;3:117.CrossRef

19.

National Planning Commission. Growth and transformation plan ii (GTP II) (2015/16-2019/20). Addis Ababa: Federal Democratic Republic of Ethiopia; 2016.

20.

Central Statistical Agency. National population census results. Addis Ababa: Ethiopian Central Statistics Agency; 2007.

21.

Birhanu K, Alamirew T, Dinka MO, Ayalew S, Aklog D. Optimizing reservoir operation policy using chance constraint nonlinear programming for Koga irrigation Dam, Ethiopia. Water Resour Manag. 2014;28:4957–70.CrossRef

22.

Kibret S, McCartney M, Lautze J, Jayasinghe G. Malaria transmission in the vicinity of impounded water: evidence from the Koka reservoir, Ethiopia. IWMI Research Report 132. Colombo, 2009.

23.

Sori G, Zewdie O, Tadele G, Samuel A. External quality assessment of malaria microscopy diagnosis in selected health facilities in Western Oromia, Ethiopia. Malar J. 2018;17:233.CrossRef

24.

European Space Agency. European Space Agency image repository. https://www.esa.int/spaceinimages/Images. Accessed 12 May 2016.

25.

United States Geological Survey. 2015. Moderate Resolution Imaging Spectroradiometer (MODIS) dataset. https://www.usgs.gov/products/data-and-tools/real-time-data/remote-land-sensing-and-landsat. Accessed 12 May 2016.

26.

Hay SI, Snow RW, Rogers DJ. Predicting malaria seasons in Kenya using multitemporal meteorological satellite sensor data. Trans R Soc Trop Med Hyg. 1998;92:12–20.CrossRef

27.

Simonoff JS, Chatterjee S. Handbook of regression analysis. New Jersey: Wiley; 2012.

28.

Minakawa N, Sonye G, Dida GO, Futami K, Kaneko S. Recent reduction in the water level of Lake Victoria has created more habitats for Anopheles funestus. Malar J. 2008;7:119.CrossRef

29.

Sena L, Deressa W, Ali A. Dynamics of Plasmodium falciparum and Plasmodium vivax in a micro-ecological setting, Southwest Ethiopia: effects of altitude and proximity to a dam. BMC Infect Dis. 2014;14:625.CrossRef

30.

Teklehaimanot HD, Lipsitch M, Teklehaimanot A, Schwartz J. Weather-based prediction of Plasmodium falciparum malaria in epidemic-prone regions of Ethiopia. I. Patterns of lagged weather effects reflect biological mechanisms. Malar J. 2004;3:41.CrossRef

31.

Ministry of Health. National Malaria Control Guidelines. Addis Ababa: Ethiopian Ministry of Health; 2012.

32.

Lindsay SW, Martens WJ. Malaria in the African highlands: past, present and future. Bull World Health Organ. 1998;76:33–45.PubMedPubMedCentral

33.

Craig MH, Snow RW, le Sueur D. A climate-based distribution model of malaria transmission in sub-Saharan Africa. Parasitol Today. 1999;15:105–11.CrossRef

34.

Blanford JI, Blanford S, Crane RG, Mann ME, Paaijmans KP, Schreiber KV, et al. Implications of temperature variation for malaria parasite development across Africa. Sci Rep. 2013;3:1300.CrossRef

35.

Mordecai EA, Paaijmans KP, Johnson LR, Balzer C, Ben-Horin T, Moor E, et al. Optimal temperature for malaria transmission is dramatically lower than previously predicted. Ecol Lett. 2013;16:22–30.CrossRef

36.

Lyons CL, Coetzee M, Chown SL. Stable and fluctuating temperature effects on the development rate and survival of two malaria vectors, Anopheles arabiensis and Anopheles funestus. ParasitVectors. 2013;6:104.

37.

Paaijmans KP, Blanford S, Bell AS, Blanford JI, Read AF, Thomas MB. Influence of climate on malaria transmission depends on daily temperature variation. Proc Natl Acad Sci USA. 2010;107:15135–9.CrossRef

38.

Bødker R, Akida J, Shayo D, Kisinza W, Msangeni HA, Pedersen EM, et al. Relationship between altitude and intensity of malaria transmission in the Usambara Mountains, Tanzania. J Med Entomol. 2003;40:706–17.CrossRef

39.

Gosoniu L, Vounatsou P, Sogoba N, Smith T. Bayesian modeling of geostatistical malaria risk data. Geospatial Health. 2006;1:127–39.CrossRef

40.

Gemperli A, Sogoba N, Fondjo E, Mabaso M, Bagayoko M, Briët OJ, et al. Mapping malaria transmission in West and Central Africa. Trop Med Int Health. 2006;11:1032–46.CrossRef

41.

Gomez-Elipe A, Otero A, Van Herp M, Aguirre-Jaime A. Forecasting malaria incidence based on monthly case reports and environmental factors in Karuzi, Burundi, 1997–2003. Malar J. 2007;6:129.CrossRef

42.

Gaudart J, Touré O, Dessay N, Dicko A, Ranque S, Forest L, et al. Modelling malaria incidence with environmental dependency in a locality of Sudanese savannah area, Mali. Malar J. 2009;8:61.CrossRef

43.

Wayant NM, Maldonado D, de Arias AR, Cousiño B, Goodin DG. Correlation between Normalized Difference Vegetation Index and malaria in a subtropical rain forest undergoing rapid anthropogenic alteration. Geospatial Health. 2010;4:179–90.CrossRef

44.

Baeza A, Bouma MJ, Dobson AP, Dhiman R, Srivastava HC, Pascual M. Climate forcing and desert malaria: the effect of irrigation. Malar J. 2011;10:190.CrossRef

45.

Graves PM, Osgood DE, Thomson MC, Sereke K, Araia A, Zerom M, et al. Effectiveness of malaria control during changing climate conditions in Eritrea, 1998–2003. Trop Med Int Health. 2008;13:218–28.CrossRef

46.

Kibret S, Wilson GG, Ryder D, Tekie H, Petros B. Can water-level management reduce malaria mosquito abundance around large dams in sub-Saharan Africa? PLoS ONE. 2018;13:e0196064.CrossRef

47.

Hess AD, Kiker CC. Water level management for malaria control on impounded waters. J Natl Malar Soc. 1944;3:181–96.

Title: Environmental and meteorological factors linked to malaria transmission around large dams at three ecological settings in Ethiopia
Authors: Solomon Kibret
G. Glenn Wilson
Darren Ryder
Habte Tekie
Beyene Petros
Publication date: 01-12-2019
Publisher: BioMed Central
Keyword: Malaria
Published in: Malaria Journal / Issue 1/2019
Electronic ISSN: 1475-2875
DOI: https://doi.org/10.1186/s12936-019-2689-y

ACC 2024 Congress Coverage

Heart Failure Video

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Environmental and meteorological factors linked to malaria transmission around large dams at three ecological settings in Ethiopia

Abstract

Background

Methods

Results

Conclusion

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusion

Please log in to get access to this content

Other articles of this Issue 1/2019

Correction to: The polymorphism and geographical distribution of knockdown resistance of adult Anopheles sinensis populations in eastern China

The first introduced malaria case reported from Sri Lanka after elimination: implications for preventing the re-introduction of malaria in recently eliminated countries

Relationship between weight status and anti-malarial drug efficacy and safety in children in Mali

Strengthening surveillance systems for malaria elimination: a global landscaping of system performance, 2015–2017

“Remarkable solutions to impossible problems”: lessons for malaria from the eradication of smallpox

Risk of transfusion-transmitted malaria: evaluation of commercial ELISA kits for the detection of anti-Plasmodium antibodies in candidate blood donors

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page