Precision mapping of snail habitat provides a powerful indicator of human schistosomiasis transmission

Wood, C L and Sokolow, S H and Jones, I J and Chamberlin, A J and Lafferty, K D and Kuris, A M and Jocque, M and Hopkins, S and Adams, G and Buck, J C and Lund, A J and Garcia-vedreene, A E and Fiorenza, E and Rohr, J R and Allan, F and Webster, B and Rabone, M and Webster, J P and Bandagny, L and Ndione, R and Senghor, S and Schacht, A-M and Jouanard, N and Riveau, G and De Leo, G A (2019) Precision mapping of snail habitat provides a powerful indicator of human schistosomiasis transmission. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 116 (46). pp. 23182-23191. ISSN 0027-8424

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Abstract

Recently, the World Health Organization recognized that efforts to interrupt schistosomiasis transmission through mass drug administration have been ineffective in some regions; one of their new recommended strategies for global schistosomiasis control emphasizes targeting the freshwater snails that transmit schistosome parasites. We sought to identify robust indicators that would enable precision targeting of these snails. At the site of the world’s largest recorded schistosomiasis epidemic—the Lower Senegal River Basin in Senegal—intensive sampling revealed positive relationships between intermediate host snails (abundance, density, and prevalence) and human urogenital schistosomiasis reinfection (prevalence and intensity in schoolchildren after drug administration). However, we also found that snail distributions were so patchy in space and time that obtaining useful data required effort that exceeds what is feasible in standard monitoring and control campaigns. Instead, we identified several environmental proxies that were more effective than snail variables for predicting human infection: the area covered by suitable snail habitat (i.e., floating, nonemergent vegetation), the percent cover by suitable snail habitat, and size of the water contact area. Unlike snail surveys, which require hundreds of person-hours per site to conduct, habitat coverage and site area can be quickly estimated with drone or satellite imagery. This, in turn, makes possible large-scale, high-resolution estimation of human urogenital schistosomiasis risk to support targeting of both mass drug administration and snail control efforts.