Living near dams increases malaria risk, study shows

The team therefore made recommendations for managing the increased malaria risk. They said dam reservoirs could be more effectively designed and managed to reduce mosquito breeding. For instance, one option is to adopt operating schedules that, at critical times, dry out shoreline areas where mosquitoes tend to breed.

The researchers said dam developers should also consider increasing investment in integrated malaria intervention programs that include measures such as bed net distribution. Other environmental controls, such as introducing fish that eat mosquito larva in dam reservoirs, could also help reduce malaria cases in some instances.

“The bottom line is that adverse malaria impacts of dams routinely receive recognition in Environmental Impact Assessments, and areas around dams are frequently earmarked for intensive control efforts,” said study author Jonathan Lautze, PhD, of the International Water Management Institute in Pretoria, South Africa.

“The findings of our work hammer home the reality that this recognition and effort—well-intentioned though it may be—is simply not sufficient. Given the need for water resources development in Africa, malaria control around dams requires interdisciplinary cooperation, particularly between water and health communities. Malaria must be addressed while planning, designing, and operating African dams.”