Investigating the relationship between coal usage and the change in cations and sulphate fluxes in three rivers in the Waterberg, South Africa

Bruyns, Lenke

January 2016

The Matimba and soon to be completed Medupi power stations located in close proximity to the town of Lephalale are a cause for environmental concern due to the known effects that coal combustion has on air, soil and water quality. The Medupi power station is currently being constructed, while the Matimba power station may have already negatively altered the water quality of the rivers especially those downwind of the power stations. The Lephalala (perennial river, upwind), the Mokolo (perennial river, upwind) and Matlabas (seasonal river, downwind) Rivers were selected due to the locations relative to the power stations. The concentrations and flux of cations and sulphate ions within the rivers in the Waterberg District Municipality were investigated for any seasonal or annual patterns using monthly data from a single sampling station along each river. Data for the concentrations of sodium, potassium, magnesium, calcium, ammonium and sulphate were analysed in conjunction with river discharge, rainfall and ambient temperature data available for each hydrological year from 1999 to 2010. The data were converted to seasonal and annual values in order to determine the influence of the quality and quantity of coal combusted as well as climatic variables (rainfall, temperature and discharge) on ion fluxes measured. Sodium was the dominant cation in all rivers, reaching a maximum concentration of 0.0015 mol.ℓ-1 (in 2007), 0.0007 mol.ℓ-1 (in 2007) and 0.0006 mol.ℓ-1 (in 2001) in the Lephalala, Mokolo and Matlabas Rivers, respectively. Other cation concentrations were four times lower in the Lephalala and Mokolo Rivers, while they were eight times lower in the Matlabas Rivers. Sulphate concentrations were approximately nine, five and 15 times lower than the cation concentrations measured within the Lephalala, Mokolo and Matlabas Rivers, respectively. The mean summed cation flux was highest in the Lephalala River (0.0015 ± 0.0010 Eq.ℓ-1), which was approximately 1.7 and 2.1 times higher than summed cation fluxes measured in the Mokolo (0.0009 ± 0.0002 Eq.ℓ-1) and Matlabas (0.0007 ± 0.0006 Eq.ℓ-1) Rivers. Cation fluxes were highest during the rainfall season (summer and spring) in the river closest to the Matimba power station (Mokolo Rivers) while summed cation flux in the Lephalala and Mokolo Rivers (located further away from the power station) showed no specific seasonality. It was, however, noted that the cation fluxes during spring and winter were elevated for both rivers, possibly indicating

Coal--Combustion.

Cations.

Sulphate.

Ion exchange.

The prevalence of Vibrio cholerae and other Vibrio spp. in surface water of rural communities in the Limpopo Province

Masindi, Wontonda

18 September 2017

MSc (Microbiology) / Department of Microbiology / See the attached abstract below

V. cholerae

Rivers

Rural communities

Diarrhea

Multiplex conventional

PCR

Vibrio species

614.514096825

Vibrio -- South Africa -- Limpopo

Cholera -- South Africa -- Limpopo

Diarrhea -- South Africa -- Limpopo

Rivers -- South Africa -- Limpopo

Evaluation of community water quality monitoring and management practices, and conceptualization of a participatory model : a case study of Luvuvhu Catchment, South Africa

Nare, Lerato

11 February 2016

Department of Hydrology and Water Resources / PhDH

Community

Water quality

Monitoring

Management

628.1610968257

Water quality -- South Africa -- Limpopo

Water quality -- Measurement

Water -- South Africa -- Limpopo

Rivers -- South Africa -- Limpopo

Luvuvh River Catchment(South Africa)

Water -- Analysis