The Physico-Chemical Quality of Streams and Channels Draining into River Rwizi, South Western Uganda.
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Date
2018-09-04Author
Atwebembeire, Jeninah
Bazira, Joel
Kagoro, Grace
Yatuha, Jane
Andama, Morgan
Bunny, Julius Lejju
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Show full item recordAbstract
There is an increased human population along the catchment area of river
Rwizi who are engaged in various activities with potential to contaminate
river Rwizi especially along the streams. Studies have been done to examine
the physico-chemical quality of the mainstream river Rwizi in Mbarara Mu-
nicipality. However, the comprehensive source of contamination may be
beyond the municipality and yet the streams have not been investigated to
substantiate their contribution on quality degradation of the river and this
formed the basis of the study. This study determined the physico-chemical
parameters of streams draining into river Rwizi. Raw water was purposively
selected from streams in the upstream, midstream and downstream sections
of the river. Water samples were analyzed for 15 physico-chemical parameters
including dissolved oxygen (DO), colour, turbidity, total suspended solid
(TSS), total iron (Fe), phosphates ( 3
4PO − ), alkalinity, magnesium (Mg), cal-
cium carbonate (CaCO 3), temperature, pH, ammonium ( 4NH+ ), electrical
conductivity (EC), chloride (Cl) and nitrates (NO 3). The water samples were
analyzed following the standard methods of American Public Health Associa-
tion and standard operating manual (1985). The obtained values were also
compared with the international Environmental Protection Agency (EPA,
2001) guidelines for water quality and the National Environment Manage-
ment Authority (NEMA, 1999) standards for waste water. The results showed
that most of the streams in the downstream generally recorded the highest
levels (p < 0.05) of the physico-chemical parameters followed by the mid-
stream and lastly the upstream. Streams in the downstream recorded the
highest levels in most of the parameters tested
i.e. bus park stream (tempera- ture, 27.6 ̊C; colour, 431.17 TCU; TSS, 99.33 mg/l; alkalinity, 468.33 mg/l;
Mg, 121.89 mg/l; CaCO 3, 588.67 mg/l; Cl, 333.33 mg/l), Kikutu stream (tur-
bidity, 123.58 NTU; EC, 698 μs/cm; DO, 55.73 mg/l; 3
4PO − , 12.85 mg/l), Ka-
kyeka upper (pH, 10.52; 4NH+ , 46.67 mg/l), Rwentondo (Fe, 3.44 mg/l) and
Kakyeka GBK (NO 3, 10.83 mg/l). Most of the parameters downstream were
higher than the EPA guideline (temperature, 25 ̊C; colour, 20 - 150 TCUs;
TSS, 50 mg/l; alkalinity, 400 mg/l; Cl, 250 mg/l; DO, 5 mg/l; 3
4PO − , 0.5 - 0.7
mg/l; pH, 5.5 - 9.0; 4NH+ , 0.2 - 4 mg/l; Fe, 0.2 - 2.0 mg/l) and NEMA stan-
dards (colour, 300 TCUs; Mg, 100mg/l; DO, 5mg/l; 3
4PO − , 10 mg/l; pH, 6.0 -
8.0). On the other hand, the streams in the upstream registered the lowest
values of the parameters
i.e. Kibimba (temperature, 17.28 ̊C; EC, 31 μs/cm;
3
4PO − , 0.24 mg/l), Kasharara (colour, 15.17 TCU; TSS, 2.5 mg/l; pH, 6.23; al-
kalinity, 19.67 mg/l; DO, 9.99 mg/l; Mg, 4.41 mg/l; CaCO 3, 23.17 mg/l) and
Karungu (turbidity, 7.02 mg/l; Fe, 0.12 mg/l). Calcium carbonate hardness of
the waters ranged from soft to excessively hard across the stream. The varia-
tions of the parameters detected in the streams in the downstream could
reach adverse conditions if no intensive measures are taken to regulate the
different anthropogenic activities within the catchment of river Rwizi.
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