2023
DOI: 10.3390/w15112141
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Investigating Seawater Intrusion in Republic of South Africa’s Heuningnes, Cape Agulhas Using Hydrogeochemistry and Seawater Fraction Techniques

Abstract: The Heuningnes Catchment in the Republic of South Africa was used as a case study in this research to describe the application of saltwater fraction/quantification and hydrogeochemistry methods to evaluate the extent of saline intrusion in the coastal aquifers. The argument of the research is that the presence of seawater incursion may be conclusively determined by combining the examination of the major ions, seawater fraction, stable isotopes of water, bromide, and geochemical modeling. Using stable isotopes … Show more

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Cited by 5 publications
(2 citation statements)
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“…Cd is a non-essential carcinogen widely available in environments with a crustal mean of 0.2 mg/kg. One study [81] suggests that a concentration above 3 µg/L in water is unsuitable for direct consumption, whereas elevated concentrations with direct and indirect exposure could severely affect human health with diseases like cancer [105,106] and aquatic biota due to its proven toxic and mobile nature [107]. The worldwide mean concentration of Cd in soil is around 0.36 mg/kg; however, the mean groundwater concentration stands at 1 µg/L [108].…”
Section: Cadmium (Cd)mentioning
confidence: 99%
“…Cd is a non-essential carcinogen widely available in environments with a crustal mean of 0.2 mg/kg. One study [81] suggests that a concentration above 3 µg/L in water is unsuitable for direct consumption, whereas elevated concentrations with direct and indirect exposure could severely affect human health with diseases like cancer [105,106] and aquatic biota due to its proven toxic and mobile nature [107]. The worldwide mean concentration of Cd in soil is around 0.36 mg/kg; however, the mean groundwater concentration stands at 1 µg/L [108].…”
Section: Cadmium (Cd)mentioning
confidence: 99%
“…However, excessive groundwater extraction results in an ongoing decline in groundwater levels, disrupting this equilibrium and causing seawater to encroach inland, resulting in seawater intrusion [6][7][8][9][10]. On the other hand, groundwater salinization may also be influenced by factors such as groundwater evaporation [11], groundwater mixing [12,13], water-rock interactions [14], and human-induced pollution [15,16]. Furthermore, climate change can lead to fluctuations in sea levels, altering the conditions for groundwater recharge in coastal areas, thereby adversely affecting groundwater resources and the environment [17][18][19][20].…”
Section: Introductionmentioning
confidence: 99%