THE LIMNOGEOLOGY OF THE LAKES SAGARA AND NYAMAGOMA
Abstract
The present study focuses on the limnogeological aspects of the lakes Sagara and Nyamagoma within the Malagarasi
Wetland Ecosystem. Abiotic parameters from water and sediment samples were determined during the dry and wet
seasons using appropriate gears and methods. The data show variation of the abiotic parameters in both lakes from the
water surface to the bottom. Lake Nyamagoma is less turbid (0.7-24 NTU) than Lake Sagara (25 to 65 NTU). The water
transparency was also high at Lake Nyamagoma (0.75-1.5 m) thus supporting the observed turbidity trend. The physical
chemical changes may be attributed to processes such as cooling, dissociation, dissolution, decomposition, adsorption,
precipitation, cation exchange and photosynthesis. However, higher nutrient concentration was observed in the wet
season than dry season with the exception of SiO 2 consequent to dilution effect by surface runoff. The mineralogical
content (Kaolinite, Smectite, Illite and Quartz) of the lake sediments indicate existence of good drainage conditions at the
lakes as supported by the geology of the area. It is recommended that a long-term limnogeological monitoring and
evaluation be conducted so as to understand future nutrient hydrodynamics and hydrological functioning of the wetland
ecosystem.
Wetland Ecosystem. Abiotic parameters from water and sediment samples were determined during the dry and wet
seasons using appropriate gears and methods. The data show variation of the abiotic parameters in both lakes from the
water surface to the bottom. Lake Nyamagoma is less turbid (0.7-24 NTU) than Lake Sagara (25 to 65 NTU). The water
transparency was also high at Lake Nyamagoma (0.75-1.5 m) thus supporting the observed turbidity trend. The physical
chemical changes may be attributed to processes such as cooling, dissociation, dissolution, decomposition, adsorption,
precipitation, cation exchange and photosynthesis. However, higher nutrient concentration was observed in the wet
season than dry season with the exception of SiO 2 consequent to dilution effect by surface runoff. The mineralogical
content (Kaolinite, Smectite, Illite and Quartz) of the lake sediments indicate existence of good drainage conditions at the
lakes as supported by the geology of the area. It is recommended that a long-term limnogeological monitoring and
evaluation be conducted so as to understand future nutrient hydrodynamics and hydrological functioning of the wetland
ecosystem.
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