Impact of vegetation clearance on the hydrology of Luvuvhu River Basin in Soutpansberg area using Working for Water as a case study

Maumela, Azwihangwisi Doris

08 1900

MESHWR / Department of Hydrology and Water Resources / See the attached abstract below

Impact

vegetation

Clearance

Hydrology

Water

581.62640968257

Plants -- South Africa -- Limpopo

Biodiversity 00 South Africa -- Limpopo

Hydrology -- South Africa -- Limpopo

Watersheds -- South Africa -- Limpopo

Water -- South Africa -- Limpopo

Alien plants -- South Africa -- Limpopo

Luvuvhu River Basin (South Africa)

An investigation of seasonal disturbance intensity on wetland grass belts of Nysvley Nature Reserve

Gelebe, Vhuhwavho

17 May 2019

MSc (Botany) / Department of Botany / The use of disturbance in the management of Savanna is a common rangeland practice in South Africa. A two-season trial was established in June 2016 and December 2016 to evaluate the effects of disturbance of different intensities on wetland belts in the Nylsvley Nature Reserve. The disturbances were in three different belts of different grass types at different intensities. The experimental treatments consisted of two different intensities, namely; high (H) and low (L). The Cyperus amabilis belt was regarded as site 1, the Sporobolus africanus as site 2, and the Themeda triandra as site 3. Seventeen kites were contracted in each belt, two times 1 m × 1 m at high and low intensity, followed by two times 2 m × 2 m one at high intensity. The results showed that disturbance affects the topsoil by removing the soil which is rich in nutrients producing pioneer species for the first few months and then original species were seen inhibiting again. / NRF

Disturbance

Low intensity

High intensity

Wetland belt

Waterlogged

Clay soil

Cyperue amabilis

Cynodon dactylon

Setaria sphaceleta

Themenda triandra

Sporobolus africanus

577.6840968257

Wetlands -- South Africa -- Limpopo

Application of biological sample oxidiser and low-level liquid scintillation counter for the determination of ¹⁴C and ³H content in water from the Hartbeespoort Dam in North-West Province

Khumalo, Lamlile Hlakaniphile Ntando

02 1900

The aim of the research study was to evaluate the levels of 14C and 3H radionuclides in Hartbeespoort Dam water and to determine if these radionuclides are within regulatory concerns. Water samples from Hartbeespoort Dam were prepared using the Sample Oxidiser Method and measurements of selected radionuclides were done using Liquid Scintillation Counter Quantulus 1220. The results evaluated suggest that water from Hartbeespoort Dam contains levels of 14C and 3H radionuclides that are within regulatory limits. The highest average concentration for 14C measured was 3.77E+01 (+/-2.47E-01) Bq/L, whereas the highest average concentration measured for 3H was 2.74E+01 (+/- 2.30E-01) Bq/L. The observations made regarding the impacts of climate on the 14C radionuclide were that, the concentration levels were higher during winter season when there was a rain than during rainy seasons. Tritium results showed that the climate conditions did not have any significant impacts on the concentration levels. When the concentrations of these radionuclides are above regulatory levels (14C is 100 Bq/L and 3H is10000 Bq/L), their impacts may cause harm to public`s health and the environment. Therefore, Necsa as a nuclear facility owner and National Nuclear Regulator (NNR) as a regulator are responsible for ensuring the public protection from radioactive effluents that contain not just 3H and 14C, but any radionuclide which may cause harm to public`s health. / Environmental Sciences / M. Sc. (Environmental Science)

Tritium

Carbon-14

Liquid scintillation counter

Sample oxidiser

Environment

Nuclear facilities

Radionuclides

Liquid effluent

Quench curves and water

539.752096824

Liquid scintillation counting