Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda

Health problems associated with the consumption of untreated drinking water is one of the greatest concerns in Kabale District in spite of government’s efforts to provide safe drinking water to the people. The objective of the study was to examine household water treatment technologies (HWTS) and ev...

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Main Authors: Alex, Saturday, George Lukoye Makokha, Anthony Macharia
Format: Article
Published: OMMEGA Publishers 2018
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Online Access:http://hdl.handle.net/20.500.12493/119
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author Alex, Saturday
George Lukoye Makokha
Anthony Macharia
author_facet Alex, Saturday
George Lukoye Makokha
Anthony Macharia
author_sort Alex, Saturday
collection KAB-DR
description Health problems associated with the consumption of untreated drinking water is one of the greatest concerns in Kabale District in spite of government’s efforts to provide safe drinking water to the people. The objective of the study was to examine household water treatment technologies (HWTS) and evaluate their ability to improve the microbial quality of drinking water. We analyzed 20 paired samples (source and treated) of drinking water from four sources of drinking water in close proximity to homesteads. Samples were analyzed for total coliforms and Escherichia coli, the indicators of faecal contamination, to measure effectiveness of HWTS. The parameters were determined using membrane filtration method. Laboratory data was statistically analyzed using one way ANOVA from SPSS software version 17.0. All HWTS improved the microbial quality of drinking water under laboratory conditions. Mean log10 total coliforms reductions were 2 log10 (99.5%) for boiling, 0.9 log10 (84.8%) for biosand filtration, 1.9 log10 (99.5%) for application of Water Guard tablets and 2 log10 (98.1%) for application of aqua safe tablets. The mean log10 Escherichia coli reductions were 1.2 log10 (100%) for boiling, bio sand filtration, application of Water Guard tablets and application of aqua safe tablets. The microbial removal effectiveness of HWTS was significantly high and the differences in the mean total coliforms reductions by different HWTS were statistically significant (P < 0.05). Water Guard, bio sand filtration, boiling and aqua safe tablets significantly remove total coliforms and Escherichia coli and should therefore is promoted at local level.
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spelling oai:idr.kab.ac.ug:20.500.12493-1192024-01-17T04:44:42Z Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda Alex, Saturday George Lukoye Makokha Anthony Macharia Household water treatment; Water quality Health problems associated with the consumption of untreated drinking water is one of the greatest concerns in Kabale District in spite of government’s efforts to provide safe drinking water to the people. The objective of the study was to examine household water treatment technologies (HWTS) and evaluate their ability to improve the microbial quality of drinking water. We analyzed 20 paired samples (source and treated) of drinking water from four sources of drinking water in close proximity to homesteads. Samples were analyzed for total coliforms and Escherichia coli, the indicators of faecal contamination, to measure effectiveness of HWTS. The parameters were determined using membrane filtration method. Laboratory data was statistically analyzed using one way ANOVA from SPSS software version 17.0. All HWTS improved the microbial quality of drinking water under laboratory conditions. Mean log10 total coliforms reductions were 2 log10 (99.5%) for boiling, 0.9 log10 (84.8%) for biosand filtration, 1.9 log10 (99.5%) for application of Water Guard tablets and 2 log10 (98.1%) for application of aqua safe tablets. The mean log10 Escherichia coli reductions were 1.2 log10 (100%) for boiling, bio sand filtration, application of Water Guard tablets and application of aqua safe tablets. The microbial removal effectiveness of HWTS was significantly high and the differences in the mean total coliforms reductions by different HWTS were statistically significant (P < 0.05). Water Guard, bio sand filtration, boiling and aqua safe tablets significantly remove total coliforms and Escherichia coli and should therefore is promoted at local level. Kabale University 2018-12-05T09:18:57Z 2018-12-05T09:18:57Z 2016 Article Saturday, A., et al. Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda. (2016) J Environ Health Sci 2(1): 1- 8. http://hdl.handle.net/20.500.12493/119 application/pdf OMMEGA Publishers
spellingShingle Household water treatment; Water quality
Alex, Saturday
George Lukoye Makokha
Anthony Macharia
Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda
title Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda
title_full Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda
title_fullStr Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda
title_full_unstemmed Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda
title_short Household Water Treatment Technologies for Microbial Removal in Kabale District, Southwestern Uganda
title_sort household water treatment technologies for microbial removal in kabale district southwestern uganda
topic Household water treatment; Water quality
url http://hdl.handle.net/20.500.12493/119
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