The use of qualitative comparative analysis to identify pathways to successful and failed sanitation systems
Sanitation systems globally fail at high rates. Researchers and practitioners attribute the causes of both sanitation success and failure to numerous factors that include technical and non-technical issues. A comprehensive understanding of what leads to sanitation failure and how to achieve sanitation success is imperative to prioritize the use of limited resources. To determine which combinations of causal conditions led to successful and failed sanitation systems, we applied fuzzy-set qualitative comparative analysis to 20 cases in Karnataka and Tamil Nadu, India with small-scale sanitation systems. Two pathways led to successful sanitation systems, and four pathways led to failed sanitation systems. All successful systems required聽Sufficient O&M Funds, a聽Clear O&M Plan, and聽Technical Support聽in addition to either聽Addressed Sanitation Priorities听补苍诲听Community Participation in Planning听辞谤听Behavior Change Education听补苍诲听Municipality Involved in Planning. All failed systems had聽Lack of Municipality in Planning,听Unaddressed Sanitation Priorities, and聽No Technical Support. Most failed systems also had聽No Clear O&M Plan,听Poor Construction Quality,听Lack of Community Participation in Planning, and聽Insufficient O&M Funds. Two failed cases had unique pathways because聽Government Barriers聽permanently disrupted use and maintenance. Overall, implementing organizations who initiate sanitation projects in resource-limited communities should ensure that (1) communities have adequate technical and financial resources for maintenance; (2) community and municipality stakeholders are engaged in planning and know their maintenance responsibilities; and (3) appropriate technologies are selected that meet community needs and achieve community buy-in.
Davis, A., Javernick-Will, A., and Cook, S. (2019). 鈥淭he use of qualitative comparative analysis to identify pathways to successful and failed sanitation systems鈥. Science of the Total Environment 663: 507-517. .