Water Practice and Technology (Aug 2023)

Abating eutrophication on urban lakes: a case study of Kabaka's Lake, Uganda

  • Anne Nakagiri,
  • Abel Mutyaba,
  • Charles Onyutha,
  • Kenan Okurut

DOI
https://doi.org/10.2166/wpt.2023.116
Journal volume & issue
Vol. 18, no. 8
pp. 1970 – 1979

Abstract

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Eutrophication of water bodies is a challenge in many urban areas. This study measured and modelled quantitatively the pollutant nutrient load of an urban lake (80,596 m2), and assessed both external (constructed wetland) and internal (dredging) eutrophication extenuation measures. For the past 25 years, there has been redistribution (p < 0.005) of the lake's catchment land use, with built-up area increasing by 78.5%, and a reduction in vegetated (37.2%) and water surface (1.8%) areas. A 92.2% reduction in the lakes receiving wetland footprint (p = 0.000003) was noted, with increased nutrient load. The lake's light attenuation was found to be dominated by algae, limited by nitrogen and classified under the oligotrophic class (Trophic State Index < 40), with a threat of eutrophication in an estimated 25 years. Scenario analyses show that the construction of a wetland in the remaining 0.54 hectares of natural wetland will reduce total phosphorus by 35% and total nitrate by 45% (p = 0.05), whereas dredging the lake could reduce them by 80% each (p = 0.0005). Watershed management is the only sustainable solution to control nutrient flow into the lake and enable self-cleansing, factoring in the design of the receiving wetland and groundwater sources. HIGHLIGHTS Quantitative measurement and modelling pollutant nutrient load of an urban lake.; Redistribution of lake catchment area lid to reduced lake footprint and increased nutrient load.; Lake's light attenuation is dominated by algae and limited by nitrogen.; Lake classified under the oligotrophic class of lakes (Trophic State Index < 40); Dredging significantly increases lake storage capacity and allows for thermal self-purification.;

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