Abstract
To evaluate the impact of anti-malaria biological larviciding with Bacillus thuringiensis israelensis on non-primary target mosquito species in a rural African setting. A total of 127 villages were distributed in three study arms, each with different larviciding options in public spaces: i) no treatment, ii) full or iii) guided intervention. Geographically close villages were grouped in clusters to avoid contamination between treated and untreated villages. Adult mosquitoes were captured in light traps inside and outside houses during the rainy seasons of a baseline and an intervention year. After enumeration, a negative binomial regression was used to determine the reductions achieved in the different mosquito species through larviciding. Malaria larviciding interventions showed only limited or no impact against Culex mosquitoes; by contrast, reductions of up to 34% were achieved against Aedes when all detected breeding sites were treated. Culex mosquitoes were captured in high abundance in semi-urban settings while more Aedes were found in rural villages. Future malaria larviciding programs should consider expanding onto the breeding habitats of other disease vectors, such as Aedes and Culex and evaluate their potential impact. Since the major cost components of such interventions are labor and transport, other disease vectors could be targeted at little additional cost.
Highlights
Larval source management, involving the elimination, alteration, and treatment of breeding grounds of disease transmitting mosquitoes, has been practiced for centuries
Promising results were achieved with the bacterial toxins Bacillus thuringiensis israelensis (Bti) and Bacillus sphaericus (Bs) that act selectively against mosquitoes and are environmentally sound
In this study we evaluate the extent to which non-malaria mosquito populations are impacted by Bti based larviciding against malaria vectors in the public space, in and around 127 rural villages and a semi-urban town in North-Western Burkina Faso
Summary
Larval source management, involving the elimination, alteration, and treatment of breeding grounds of disease transmitting mosquitoes, has been practiced for centuries. During the 1950s insecticides such as DDT and Paris Green had become a promising tool for global malaria eradication, but they were later abandoned because of their disastrous effect on the environment. Routine implementation is carried out predominantly in high income countries, but several large-scale trials have been carried out in urban and rural Africa during the last two years and have proved technically feasible and demonstrated an impact on malaria vector populations. Evidence of their impact on actual malaria transmission is currently backed by only a few studies [1, 2]. Promising results were achieved with the bacterial toxins Bacillus thuringiensis israelensis (Bti) and Bacillus sphaericus (Bs) that act selectively against mosquitoes and are environmentally sound
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