Browsing by Author "Bernard, Barasa"

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    Modelling the impact of land use/cover changes on water balance of a humid equatorial highland catchment in Southwestern Uganda, East Africa
    (African Geographical Review, 2022-11) Loy, Turyabanawe Gumisiriza; Geofrey, Gabiri; Bernard, Barasa; Geoffrey, Mukisa; Claire, Nabatta
    This study investigates impact of land use/cover change on water balance of River Mitano catchment in Southwestern Uganda using SWAT model. Land use/cover changes were assessed using three land use maps for years of 2000, 2010 and 2020. Water fluxes were simulated using observed daily discharge.14.4% of precipitation received is converted into discharge, with base flow (2.9%) and lateral flow (11.8%) major contributors. Conversion of grasslands to cropland and built-up areas were key changes. An increase in cropland (6.8%) and built-up areas (3.0%) at expense of grassland and wetland were noticed, with significant increase in monthly and annual groundwater flow.
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    Water hyacinth’s extent and its implication on water quality in Lake Victoria, Uganda
    (The Scientific World Journal, 2023-03) Hussein, Kiyemba; Bernard, Barasa; Joyfred, Asaba; Paul, Makoba Gudoyi; Gertrude, Akello
    Water hyacinth (Eichhornia crassipes) degrades and obstructs the integrity of freshwater ecosystems. However, little attention has been paid to monitoring water hyacinth’s spatial extent, its determinants, and its efects on water quality in Lake Victoria, Uganda. Te specifc objectives of this paper are to (i) assess the spatial extent and distribution of water hyacinth; (ii) examine the determinants of water hyacinth distribution, and (iii) assess its impact on water quality. High-resolution satellite images (2016–2019) were obtained and used to monitor the spatial extent of the water hyacinth, a household survey was conducted to examine the determinants of the water hyacinth’s extent and patterns while water samples were drawn and analysed for physicochemical properties. Results show that the coverage and distribution of water hyacinth varied over space and time. Water hyacinth coverage primarily increased with a decrease in water surface area. Te perceived factors that triggered the water hyacinth spread included the morphology of the Bay, efuent discharge, strong winds, speed of water current, water-level changes, ferry navigation, and construction activities at the shore. Water parameters signifcantly impacted by hyacinth were pH, TP, BOD, COD, DO, turbidity, and transparency. Tis study recommends the strict development and implementation of integrated weed control measures, catchment management plans, and point and nonpoint pollution source control.