Governments and development partners must significantly strengthen post-construction support and test and evaluate alternative models for managing handpump water supplies.
Title | Predictors of sustainability for community-managed handpumps in Sub-Saharan Africa : evidence from Liberia, Sierra Leone, and Uganda |
Publication Type | Journal Article |
Year of Publication | 2013 |
Authors | Foster, T |
Secondary Title | Environmental science & technology |
Volume | 47 |
Pagination | 12037-12046 |
Date Published | 09/2013 |
Publication Language | English |
Abstract | Rural water supply sustainability has remained an enduring policy challenge in sub-Saharan Africa for decades. Drawing on the largest data set assembled on rural water points in sub-Saharan Africa to date, this paper employs logistic regression analyses to identify operational, technical, institutional, financial, and environmental predictors of functionality for over 25 000 community-managed handpumps in Liberia, Sierra Leone, and Uganda. Risk factors significantly associated with non-functionality across all three countries were (a) system age, (b) distance from district/county capital, and (c) absence of user fee collection. In at least one of the three countries, other variables found to have significant multivariable adjusted associations with functionality status included well type, handpump type, funding organisation, implementing organisation, spare parts proximity, availability of a handpump mechanic, regular servicing, regular water committee meetings, women in key water committee positions, rainfall season, and perceived water quality. While the findings reinforce views that a multifaceted range of conditions is critical for the sustainability of community-managed handpumps, they also demonstrate that these factors remain absent from a high proportion of cases. Governments and development partners must significantly strengthen post-construction support for operation and maintenance systems, and greater efforts are needed to test and evaluate alternative models for managing handpump water supplies. [author abstract] |
Notes | Includes 45 ref. |
DOI | 10.1021/es402086n |