Abstract
BackgroundSchistosomiasis remains prevalent in Africa, Asia and South America with an estimated burden of 1.9 million disability-adjusted life years in 2016. Targeting snails as a key to success for schistosomiasis control has been widely approved, but the long-term quantitative effects of interventions on snail control that would inform and improve future control programmes are unclear. Over the last six decades, schistosomiasis in China had been brought largely under control, and snail control as supplementary methods or part of integrated multisectoral approaches in different historical periods has played an essential role.MethodsEcological environment factors, prevalence and control data on Oncomelania hupensis between 1985 and 2015 at 5-year intervals in Qianjiang city, China, were collected. A multilevel growth model approach was used to examine the long-term effects of ecological environmental changes and mollusciciding on snail-infested area (SIA) and living snail density (LSD) during the 30 years.ResultsThe variation of SIA was 68.4% in spatial distribution, while the variation of LSD was 68.4% in temporal distribution. Continuous mollusciciding could result in significant LSD reduction, but may not lead to significant SIA reduction. The normalized difference vegetation index (NDVI), patch size coefficient of variation (PSCoV) and mean patch size (MPS) reduction, slightly due to eco-environmental changes decreased SIA, while mean perimeter-area ratio (MPAR) and dry farm-land proportion (DFLP) reduction might increase SIA. Only NDVI and MPAR reduction led to a lower LSD.ConclusionsMollusciciding was more effective in reducing snail density, but it is not easy to eliminate snails completely. Environmental modifications could completely change the snail breeding environment and reduce its infestation area. Due to difficulty of scaling-up the current environmental modifications in waterway network regions, more effective snail control methods are needed. The experience in China could thereby provide guidance for other schistosomiasis endemic areas with a high snail prevalence.
Highlights
Schistosomiasis remains prevalent in Africa, Asia and South America with an estimated burden of 1.9 million disability-adjusted life years in 2016
Mollusciciding was more effective in reducing snail density, but it is not easy to eliminate snails completely
The results from the final Model D (Table 2) indicated that even after adjusting for the differences in shortest distance from the Yangtze River (SDYR) and the interaction between SDYR and TIME, the environmental predictors that appeared in Model C, such as dry farm-land proportion (DFLP), patch size coefficient of variation (PSCoV), mean patch size (MPS), mean perimeter-area ratio (MPAR), and normalized difference vegetation index (NDVI), remained statistically significant in Model D for snail-infested area (SIA), as did MPAR and NDVI for living snail density (LSD)
Summary
Schistosomiasis remains prevalent in Africa, Asia and South America with an estimated burden of 1.9 million disability-adjusted life years in 2016. Targeting snails as a key to success for schistosomiasis control has been widely approved, but the long-term quantitative effects of interventions on snail control that would inform and improve future control programmes are unclear. Over the last six decades, schistosomiasis in China had been brought largely under control, and snail control as supplementary methods or part of integrated multisectoral approaches in different historical periods has played an essential role. The unintentional ecological environmental interventions refer to the natural or artificial non-targeted snail killing behaviors, including the growth and evolution of natural vegetation and the change of land use/cover due to the adjustments in the agricultural economic structure that may affect the breeding environment for snails. The quantitative long-term experience will provide support for precise snail control
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