Estimation of Ascaris lumbricoides egg inactivation by free ammonia treatment of ash-amended UDDT vault products using stored urine in Uganda
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Date
2016
Journal Title
Journal ISSN
Volume Title
Publisher
Journal of Water, Sanitation and Hygiene for Development
Abstract
Urine-diverting dry toilets (UDDTs) are designed to recover nutrients and organic matter from human
excreta for use as agricultural amendments, and have been promoted in many developing countries,
including Uganda. Wider UDDT implementation could help address problems in areas where water
scarcity limits sanitation coverage and/or declining soil fertility jeopardizes growing populations’
nutritional security. However, concerns have been raised regarding the safety of recovered UDDT
vault products, which may contain persistent pathogens such as Ascaris lumbricoides eggs.
A. lumbricoides eggs can be inactivated through elevation of free ammonia levels. This study
assessed the feasibility of a secondary ammonia treatment strategy for UDDT ash-amended vault
products using urine. Treatment parameters were measured in mixtures of urine, ash-amended vault
products, and wood ash, a model was developed to account for temperature fluctuations, and
A. lumbricoides egg inactivation times were estimated using a previously published model. A mixture
containing two parts urine and one part ash-amended vault products was estimated to provide
2-log10 inactivation after 3 months of indoor storage (daily mean temperatures: 22.8±0.3 WC) or 2
months of outdoor storage (25.9±1.3 WC). This strategy could improve the safety of recovered
products for agricultural use to improve the nutritional security of vulnerable populations.
Description
Keywords
Ecological sanitation, Helminth, Resource recovery, Sanitation, Sub-Saharan Africa, Urine-diverting dry toilet
Citation
Trimmer, J. T., Nakyanjo, N., Ssekubugu, R., Sklar, M., Mihelcic, J. R., & Ergas, S. J. (2016). Estimation of Ascaris lumbricoides egg inactivation by free ammonia treatment of ash-amended UDDT vault products using stored urine in Uganda. Journal of Water, Sanitation and Hygiene for Development, 6(2), 259-268. doi: 10.2166/washdev.2016.111