Price, C.PMoeketsi, D.MLindsay, RVan de Heyde, Valentino Patrick2015-02-252024-10-302015-02-252024-10-302012https://hdl.handle.net/10566/16593>Magister Scientiae - MScThe development of regional ionospheric Total Electron Content (TEC) models has contributed to understanding the behavior of ionospheric parameters and the coupling of the ionosphere to space weather activities on both local and global scales. In the past several decades, the International Global Navigation Satellite Systems Service (GNSS) networks of dual frequency receiver data have been applied to develop global and regional models of ionospheric TEC. These models were mainly developed in the Northern Hemisphere where there are dense network of ground based GPS receivers for regional data coverage. Such efforts have been historically rare over the African region, and have only recently begun. This thesis reports the investigation of the effect of mid-latitude magnetic storms on TEC over South Africa for portions of Solar Cycles 23 and 24. The MAGIC package was used to estimate TEC over South Africa during Post Solar Maximum, Solar Minimum, and Post Solar Minimum periods. It is found that TEC is largely determined by the diurnal cycle of solar forcing and subsequent relaxation, but effects due to storms can be determinedenSolar activityGeomagnetic stormsIonosphereTotal electron contentGlobal navigation satellite systemsGlobal positioning systemsDisturbance storm timeMAGICAn Investigation of magnetic storm effects on total electron content over South Africa for selected periods in solar cycles 23 and 24ThesisUniversity of the Western Cape