School for Geospatial Studies and Information Systems

Permanent URI for this community

https://scholar.sun.ac.za/handle/10019.1/4408

Browse

Browsing School for Geospatial Studies and Information Systems by browse.metadata.advisor "Smit, H.A.P."

Now showing 1 - 1 of 1
  • Thumbnail Image
    Item
    The influence of geographic factors on the distribution of natural radionuclides
    (Stellenbosch : Stellenbosch University, 2017-12) Geyser, Alwyn Petrus; Bezuidenhout, J.; Smit, H.A.P.; Stellenbosch University. Faculty of Military Science. Dept. of Military Geography. School for Geospatial Studies and Information Systems.
    ENGLISH SUMMARY: The primordial radionuclides 40K, 232Th, and 238U have been present in almost all rocks, soils, and minerals since the formation of Earth. These radionuclides emit gamma radiation that is detectable by means of a scintillation detector. By measuring the concentrations of 40K, 232Th, and 238U in an area it is possible to draw radioelement maps. These radioelement maps were then used in a qualitative analysis to establish the influence of local geographic factors on the distribution of natural radionuclides. The research site is a granite outcrop, Baviaansberg, and the immediate area surrounding the outcrop. Baviaansberg is situated in the Saldanha Bay Military Area on the West Coast of South Africa. The available literature on the impact of geographic factors on the distribution of natural radionuclides are limited. Scientific radioelement mapping in military areas in South Africa has only been completed by Bezuidenhout (2012). The research provided the opportunity to study the feasibility of establishing a link between natural radionuclide concentrations and geographic factors within a military area. Hence, the aim of the research was to investigate the relationship between geographic factors and the distribution of natural radionuclides of a particular area. Radioelement maps were used to analyse the impact of the respective geographic factors “geology”, “topography”, “soil type”, “hydrology”, “wind” and “human activity” on the distribution of the concentrations of natural radionuclides. Radiation measurements of the natural radionuclides in the research site were completed by means of in situ measurements using a NaI(Tl) scintillation detector connected to a tablet computer. Once the natural radionuclide concentrations were extracted by means of Full Spectrum Analysis (FSA), radioelement maps were created from the results. Qualitative analysis was performed on the radioelement maps by means of comparing it to the slope raster, slope profiles, a flow accumulation raster, wind data, Google Earth images, a human activities map, a soil type map, Spline vs Kriging raster, Th vs K raster, U vs K raster, and a U vs Th raster. The qualitative analysis aimed to establish the influence of the identified geographic factors on the spread of natural radionuclide concentrations. The results indicated that the geology of an area influences the distribution of natural radionuclides. The highest concentrations of natural radionuclides were found close to the granite outcrops on Baviaansberg. Slope was used to determine the influence of topography. The results revealed that slope influences 40K concentrations to a greater extent than 232Th and 238U concentrations due to the solubility of 40K. The different soil types within Baviaansberg also displayed unique associated natural radionuclide concentrations. According to the research results, the hydrology of Baviaansberg impacted on the spread of 40K, 232Th and 238U concentrations. However, 40K was influenced to a greater extent because of its solubility. The impact of the dry summer winds on the distribution of natural radionuclides became apparent through a comparison of the leeward and windward slopes of Baviaansberg. On the leeward slope higher concentrations of natural radionuclides were recorded than on the windward slope due to small particles that are removed from the windward slope and deposited on the leeward slope. Research results concerning the influence of human activities on the distribution of natural radiation were inconclusive. Further research needs to be conducted in order to confirm a definite relationship, should it in fact exist. True to the aim of the research, the study established that it is feasible to validate the influence of geographic factors on the distribution of natural radionuclides by analysing the natural radionuclide concentrations of an area.