dc.description.abstract |
Water quality is determined by the bacteriological and Physico-chemical parameters.
The water quality of Kiamumbi Reservoir water project is of great importance
because it is used for consumption in Kiamumbi Estate. This study aimed at
analyzing the bacteriological and physico-chemical quality of water in Kiamumbi
catchment and water supplied to households during the wet and dry seasons. Portable
pH meter (Jenways), Portable TDS meter 4076 (Jenways), Portable Ec meter
(Jenways), and Portable turbidity meter were used after calibration to measure pH,
total dissolved solids, electrical conductivity and turbidity respectively. The highest
mean pH was 7.24±0.06 recorded at the first sampling point of the feeder river. The
highest level of Total dissolved solids was 217.3±21.5 at the storage facility during
wet season while for turbidity was 20.5±0.85 NTU recorded at the second sampling
point of the feeder river during the wet season. The highest level of electrical
conductivity was 0.25±0.02µS recorded at the first sampling point of the feeder river.
Heavy metals were analyzed using atomic absorption spectroscopy. The metals that
were found to have concentrations above the acceptable levels were Cadmium,
Chromium, Lead, Iron and Nickel. The highest mean concentration of Cadmium was
0.04 ±0.007mg/L recorded at the first sampling point of the river during the wet
season. The highest mean concentration of chromium was 0.94±0.004 mg/L recorded
at the reservoir during the dry season. Lead was highly concentrated during the wet
season at 1.3 ±0.83 mg/L at the second sampling point of the feeder river. The
highest mean concentration of iron was 0.72 ±0.18 mg/L at the first sampling point
of the feeder river. The highest mean concentration of Nickel was 0.47 ±0.18 mg/L recorded at the storage facility during the dry season. The bacteriological quality of
water was analyzed using the standard method for analysis of water. During the dry
season, salmonella typha, pseudomonous aeruginosa, Shigella dysentriae and
streptococcus were found in the river. During the wet season Citrobacter freundii,
enterobacter aerogenes, Klebssiella oxycota, Proteus vulgaris and dysentriae were
found to be present in the same river. Escherichia coli, pseudomonous aeruginosa,
Shigella dysentriae, Streptococcus and Enterobacter aerogenes were found in the
reservoir during the dry season. Escherichia coli, Citrobacter freundii, Salmonella,
Shigella dysentriae, Klebssiella oxycota, and Enterobacter aerogenes were found to
be present in the reservoir during the wet season. Qualitative data analysis showed
that the main activities contributing to pollution were horticultural farming (96 %),
Livestock keeping (71%), poultry keeping (25%), Coffee plantations (39 %),
construction (36 %) and quarrying (61 %) while the sources of pollutants were found
to be sewage (82 %), animal waste (71 %), fertilizers (79%), insecticides and
pesticides (57%), surface run-off (79 %), construction waste (18 %) and domestic
waste (4 %). The results of this study indicated that the catchment is polluted by
pollutants from different sources. However, after treatment, the bacteriological
quality of water was found to be within acceptable levels but the treatment method
was found to be ineffective in reduction of chemical pollutants. It is for this reason
that this study concluded that the water distributed to households in Kiamumbi estate
is not fit for drinking and therefore a more effective treatment method should be put
in place. |
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