The factors that influence waste generation and management vary with country but there is a gap in the availability of waste data in Africa limiting the assessment of these factors for sustainability. Hence, this study was aimed at evaluating the drivers of waste generation, collection and disposal, and their impact on sustainability of Kampala as compared to the East African Community (EAC). Waste generation in Kampala was calculated using recorded waste collection efficiencies while data for Nairobi and Dar es Salaam was obtained from existing literature. Waste quantities for disposal were recorded daily at Kiteezi landfill from 2011 to 2017. Results showed that the major drivers of waste generation, collection and disposal in the EAC are population growth, vehicle capacity and the need for disposal respectively. Waste generation rate in Kampala increased from 0.26 to 0.47 kg/capita/day and the annual waste quantity increased significantly (p < 0.5) by 48% from 227,916 to 481,081 tons corresponding to a 54% population increase. Waste collection efficiency increased from 30% to 64% and hence waste for disposal increased significantly (p < 0.5), with a mean of 15,823 tons/month; but varied significantly (p < 0.5) with the city division. The most (5120 tons) and least (3472 tons) waste per month was collected from the Central and Nakawa divisions respectively. Additionally, Kampala Capital City Authority collected significantly more waste than private collectors for all study years. Waste is disposed of at the Kiteezi landfill despite exhausted capacity. Future projections showed that by 2030, annual waste would increase by approximately 60% for Kampala and Nairobi and by 74% for Dar es Salaam. Dar es Salaam generated the highest amount of waste, five times more than Kampala. More investment needs to be made towards the reduction of waste disposal and strategies developed for the reuse and recycling of waste.
Summary
Following the recent decline in browsing and grazing pressures and changed fire regimes in Queen Elizabeth National Park, Uganda, Acacia thickets have encroached on grassland habitats important for grazing mammals. The objective of this research was to test experimentally the effects of fire behaviour, using simulated and natural fuel loading conditions, on A. sieberiana seedling and sapling regeneration.
A high fire intensity (3200 kW m‐1) in natural fuels stimulated high seedling emergence (172 seedlings m‐2) compared to 6 seedlings m‐2 without fire. Also a highly significant linear regression was established between percentage top‐kill of seedlings and fire intensities. High fire intensities during late dry season fires were more effective in controlling sapling height growth than early dry season fires of low intensities. A conceptual diagram was developed to show the major factors and possible pathways leading to successful invasion by A. sieberiana into grassland openings of the savanna.
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