Browsing by Author "Yazidhi, Bamutaze"

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    Assessment of hydro-pedological characteristics at medium-sized landslide sites in Manafwa catchment, Mount Elgon, Uganda
    (Hydrological Sciences Journal, 2024-05-17) Moses, Kutosi; Yazidhi, Bamutaze; Bob, R. Nakileza; Yeeko, Kisira; Geofrey, Gabiri
    Though strongly linked to landslides, hydro-pedological characteristics are inadequately investigated in the area. This study investigated hydro-pedological characteristics at medium landslide sites in Manafwa catchment. The design had twelve (12) infiltration experiments that were conducted at each site. To determine the selected soil physical properties, composite soil samples were extracted from the infiltration sites for soil laboratory analysis. Soil cores were extracted to determine saturated hydraulic conductivity (Ksat) and bulk density. The observed high values of IR and rapid Ksat underscore the susceptibility of the studied sites to landslide hazards. Additionally, soil organic matter (SOM), clay content, and bulk density further contribute to the understanding of the hydro-pedological factors influencing landslide occurrences. These findings reveal the need for comprehensive investigations into hydro-pedological characteristics of other landslide categories to assist in landslide risk assessment and management strategies.
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    Intersecting RUSLE modelled and farmers perceived soil erosion risk in the conservation domain on mountain Elgon in Uganda
    (Elsevier, 2020-11) Yazidhi, Bamutaze; Paul, Mukwaya; Shuichi, Oyama; Daniel, Nadhomi; Peter, Nsemire
    This study investigated the intersection between empirically derived and farmers perceived soil erosion risk in a medium-sized catchment on the Ugandan side of mountain Elgon. We postulated that farmers' perception of soil erosion risk was high and this influenced their employment of Soil and Water Conservation (SWC) measures on their land. An adapted Revised Universal Soil Loss Equation (RUSLE) was employed to model the soil erosion risk in a Geographical Information System (GIS) environment. Participatory Learning and Action (PLA) tools covering household interviews and Focus Group Discussions (FGDs) were implemented in two representative subcounties of the catchment to elicit information on farmers' perception of soil erosion risk. Household interviews covering 184 respondents were georeferenced using a Geographical Positioning System (GPS). Farmers perceived soil erosion risk on their land was then matched with RUSLE modelled risk using GPS positional data. The modelled soil erosion risk was substantial and a sizeable proportion of the catchment (63%) exhibited soil losses >10 t ha-1 yr-1, which is considered above the tolerable limit for mountain environments. A slight but significant agreement (p < 0.001) between the modelled and farmers perceived soil erosion risk was observed. In general, farmers perceived soil erosion risk was less than the RUSLE model estimates. Although 95% of farmers recognize soil erosion as problematic, only 65% implemented some aspect of SWC on their land albeit with varied purposes. Chi-square tests did not detect a strong association (p > 0.05) between farmers' perceived soil erosion risk and implementation of SWC on their land. On this basis, our postulation that perceived high soil erosion risk influences the implementation of SWC does not suffice in the studied catchment. We surmise that successful risk mitigation should be directed more on increasing farmer's awareness of the long-term adverse consequences of soil erosion on their land.