Browsing by Author "Kithaka Samson Chabari"

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    BACTERIOLOGICAL QUALITY STATUS OF BOREHOLES WATER IN THARAKA NITHI COUNTY, KENYA
    (Abjournals, 2020) Fredrick O. Ogolla; Kithaka Samson Chabari; Jedidah Karimi Kariuki
    Water shortage that is caused by long droughts and higher cost of accessing piped water have forced many households in Kenya to opt for wells and borehole water. Where they are used, boreholes are exposed to contamination by pathogenic microorganisms from nearby toilets, defecation from domesticated animals and surface runoff. Despite of known health concerns of consuming contaminated water, many rural residents still consume borehole water whose portability is not determined and may not meet WHO standards. Thus, this study was conducted in Tharaka Nithi County to assess bacterial quality status of selected boreholes in Maara, Igamba Ngombe and Tharaka Constituencies between April to September 2019. A total of 108 water samples were collected from 36 boreholes. Boreholes in Mukothima within Tharaka area were not collected as the ones accessed were dry at the time of sampling. The samples were analyzed at Chuka University using most probable number methods, Plate count and bacteria species identified using selected biochemical methods. Data (MPN) for total and feacal coliform for different location of study and boreholes were log transformed (log10 (cfu+3) and compared using general linear method in SAS. Significance means were separated using least significant difference post hoc test in SAS version 9.4. Number of bacteria isolated from water samples were also compared using general linear model. Feacal coliform values exceeding WHO recommendation of (0 CFU/ 100 ml was observed in all borehole surveyed. Mean MPN value of 17.5/ 100 ml CFU was observed in Kawangware. Coliform bacteria E. coli, Bacillus spp, Klebsiella spp were isolated in all the water sampled. However, E. coli followed by Bacillus spp were higher compared to the rest of isolates. Occurrence of these bacteria in borehole water put the health of depended consumers at risk of infection.
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    Bacteriological Water Quality Assessment Of Nkenye Stream In Meru South In Tharaka Nithi County, Kenya
    (Research journali, 2020-02) Kithaka Samson Chabari; Erick C. Njagi; Adiel Magana; Fredrick O. Ogolla
    Access to portable water remains a major global concern due to increased rate of water pollution contributed for by climate change and human. Destruction of riparian zones has exposed the rivers and streams to toxic and pathogenic pollutants released from untreated organic and inorganic waste. Exposure of river and stream used for drinking water to pollution is detrimental to aquatic plants, animals, and human consumers who depends on such valuable ecosystem. Nkenye stream that originates from Nkenye wetlands in Chuka, Meru South provide water that is used in fish ponds, irrigation and water for domestic use in homestead. Despite of the significance of Nkenye stream, little attention has been accorded to ascertain its water quality given its location. Study was conducted to determine the bacteriological water quality of Nkenye stream based on the feacal and total coliform count. Samples were collected at designated locations using ecological survey method and taken to Chuka University for evaluation. Coliform analysis of water samples was done by most probable number method using Macconkey purple broth at botany laboratory, Chuka University. The results of coliform counts obtained were subjected to the analysis of variance using General linear model (GLM) on Statistical analysis system (SAS) version 9.4. The significance coliform means were separated by Least significance difference (LSD) [alpha = 0.05]. Feacal coliform count of Nkenye stream did not conform to WHO standards of 0 cfu/100 ml as the mean of 10 cfu/100 ml was observed for the entire stream. The occurrences of these bacteria in water indicate water deterioration and the presence of many water-borne pathogens that needs immediate attention. The study recommends that local authorities particularly Tharaka Nithi county government should provide waste management disposal systems and policies that prohibit direct discharge of untreated effluents to Nkenye stream.