期刊
WATER SA
卷 49, 期 2, 页码 96-102出版社
WATER RESEARCH COMMISSION
DOI: 10.17159/wsa/2023.v49.i2.3992
关键词
seasonal; ephemeral; perennial rivers; recharge; discharge; conceptual model; semi-arid
The role of groundwater in freshwater ecosystem management is often overlooked, but understanding the interaction between groundwater and rivers is essential for sustainable management of resources, especially in the face of future climate variability.
The role of groundwater, in general, is often overlooked in freshwater ecosystem management policies and in the management of South Africa's flagship conservation area, the Kruger National Park (KNP). To address this gap, a generalised conceptual model of surface water-ground water (sw-gw) interactions in the southern and central regions of the KNP was developed. To do this, stable isotope ratios (delta 18O and delta 2H) of groundwater, rainfall and surface water were used to determine the extent to which the base flow of perennial, seasonal and ephemeral streams on different geologies (granite vs. basalt) is driven by rainfall or groundwater. These results show that the delta 18O and delta 2H ratios of perennial rivers are similar to that of groundwater, while seasonal and ephemeral rivers on basalts have values closer to rainfall. On granite substrates, however, the isotope ratios of the seasonal and ephemeral rivers have values closer to groundwater than rainfall. The larger seasonal Mbyamiti River had similar isotope ratios to that of groundwater, and the highly ephemeral Nwaswitsontso had episodic interaction with groundwater (i.e. isotopic ratios overlap occasionally). These results show that decisions necessary for the sustainable management of groundwater resources are better informed when the natural interaction, movement, and exchange between groundwater and rivers are understood. This has particular relevance for large conservation areas in southern Africa that are expected to experience more variable climates in the future with both increases in drought and rainfall intensities.
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