Abstract
South Africa water resources are scarce in global terms with mean annual rainfall of about half world average of 860 mm a year. On the other hand, current economy development with resulting contamination of available water resources will further reduce water availability, if present patterns of water use continue unchanged. The conventional water resources (largely surface water) in the country have been fully exploited with little opportunity for further expansion. So therefore, new approaches are necessary by accessing alluvial aquifers of non-perennial rivers in forming additional water resources in this part of semi-arid region. High evaporative losses from surface storage, increasing costs of large dams and aridity conditions have hindered development of conventional water resources with increasing interest in using groundwater for rural water supply. Many South Africa rivers are non-perennial, therefore, development of unconventional sand water storage is appealing for freshwater augmentation in isolated rural communities. This paper presents overviews of South Africa water resources highlighting sand water storage options for potential application in rural water supply for isolated communities where groundwater potential is low. Key words: Rural water supply, groundwater dam, runoff harvesting, non-perennial river.
Highlights
South Africa is semi-arid and is classified as a waterstressed country (Tewari, 2005)
South Africa is a mixture of developed and developing regions, and about 9.7 million (20%) of the people do not have access to adequate water supply
Harvesting runoff with specific reference to Sand water storage was selected because runoff harvesting technology is not prevalent in South Africa despite its potential for augmenting freshwater in the country
Summary
South Africa is semi-arid and is classified as a waterstressed country (Tewari, 2005). Over 50% of South Africa’s catchments are considered to be over-allocated (Pott et al, 2009) as surface water resources become fully developed. The water from streams, rivers and reservoirs is no longer enough to assure increasing water demand in many rural areas under semi-arid conditions. As migration from rural to urban areas increases, access to a sustainable and adequate supply of water is critical in rural semi-arid areas. In many high demand areas, rate of extraction of groundwater has exceeded the rate of natural recharge, causing continuous decline in groundwater levels and depletion of aquifers. Smakhtin et al (2001) considered contributing factors to slow rates of groundwater recharge as low rainfall combined with high rates of evaporation experienced in semi-arid regions.
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