Application Of Drastic In Studying The Vulnerability Of The Greater Durban Area's Groundwater To Pollution, Eastern South Africa

Groundwater is vulnerable to contamination from various anthropogenic sources. The degree of groundwater vulnerability can be assessed using various methods, which are grouped into three major categories: index-and-overlay methods, process-based computer simulations and statistical analyses. This study attempts to produce a groundwater vulnerability map of the eThekwini Metropolitan District Municipality using the index-and-overlay method of DRASTIC in a GIS environment for the first time. The advantage of this method is that it provides relatively simple algorithms or decision trees to integrate large amount of spatial information into maps of simple vulnerability class es and indices. The main objective of the study is to identify areas of high groundwater contamination potential based on hydrogeological conditions so that management interventions are undertaken timely. DRASTIC is a groundwater vulnerability assessment method based on the intrinsic property of groundwater systems to human or natural impacts. It uses seven hydrogeological parameters, namely, Depth to groundwater, net Recharge, Aquifer media, Soil media, Topography, Impact of the vadose zone and hydraulic Conductivity of the aquifer. These DRASTIC parameters characterize the hydrological setting and are known to control the vulnerability of aquifers to surface derived pollutants. Various studies show that depth to groundwater and impact to vadose zone impose larger impact on aquifer vulnerability followed by recharge, topography and soil media. The application of DRASTIC to the greater Durban area resulted in vulnerability index values in the range from 71 to 168. Based on these index values, greater Durban area is classified into zones of low, moderate and high vulnerability of groundwater to pollution. The low vulnerability areas (Drastic Index. DI: 71-114) are located in the northern region around Magangeni which are underlain by the intergranular and fractured aquifer due to essentially deep groundwater table (>25 m), vadose zone sediments, low hydraulic conductivity and recharge rate. The moderately vulnerable areas (DI: 114-127) cover more than 50% of the study area that is underlain by fractured and Intergranular, and fractured aquifers. The moderate vulnerability areas are located in the western region (Hammarsdale and Kloof), northern region (Mount Edgecombe and Tongaat) and southern region (Amanzimtoti). The moderate vulnerability pattern is mainly due to variation in the hydraulic conductivity of the aquifer and the vadose zone and less by the recharge and the depth to groundwater. The region around central Durban, the Bluff area, Yellowwood Park and areas along the coast that are underlain by intergranular aquifer are mapped as "hotspots" characterized by high vulnerability to groundwater pollution (DI: 127-168) and needs immediate management intervention.