4.8 Article

A planetary health innovation for disease, food and water challenges in Africa

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NATURE
卷 619, 期 7971, 页码 782-+

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NATURE PORTFOLIO
DOI: 10.1038/s41586-023-06313-z

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In many low- and middle-income countries, there is a lack of sustainable solutions for infectious diseases, food and water challenges, and poverty. In West Africa, agricultural development and fertilizer use contribute to the spread of schistosomiasis by promoting the growth of aquatic vegetation, which serves as a habitat for snails that transmit the disease. A cluster randomized controlled trial showed that removing invasive vegetation from water points reduced infection rates in schoolchildren and improved water access. The removed vegetation can be used as livestock feed or converted into compost for crop production, providing economic incentives and public health benefits.
Many communities in low- and middle-income countries globally lack sustainable, cost-effective and mutually beneficial solutions for infectious disease, food, water and poverty challenges, despite their inherent interdependence(1-7). Here we provide support for the hypothesis that agricultural development and fertilizer use in West Africa increase the burden of the parasitic disease schistosomiasis by fuelling the growth of submerged aquatic vegetation that chokes out water access points and serves as habitat for freshwater snails that transmit Schistosoma parasites to more than 200 million people globally(8-10). In a cluster randomized controlled trial (ClinicalTrials.gov: NCT03187366) in which we removed invasive submerged vegetation from water points at 8 of 16 villages (that is, clusters), control sites had 1.46 times higher intestinal Schistosoma infection rates in schoolchildren and lower open water access than removal sites. Vegetation removal did not have any detectable long-term adverse effects on local water quality or freshwater biodiversity. In feeding trials, the removed vegetation was as effective as traditional livestock feed but 41 to 179 times cheaper and converting the vegetation to compost provided private crop production and total (public health plus crop production benefits) benefit-to-cost ratios as high as 4.0 and 8.8, respectively. Thus, the approach yielded an economic incentive-with important public health co-benefits-to maintain cleared waterways and return nutrients captured in aquatic plants back to agriculture with promise of breaking poverty-disease traps. To facilitate targeting and scaling of the intervention, we lay the foundation for using remote sensing technology to detect snail habitats. By offering a rare, profitable, win-win approach to addressing food and water access, poverty alleviation, infectious disease control and environmental sustainability, we hope to inspire the interdisciplinary search for planetary health solutions(11) to the many and formidable, co-dependent global grand challenges of the twenty-first century.

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