Abstract
The quality of groundwater resources in coastal aquifers is affected by saltwater intrusion. Over-abstraction of groundwater and seawater level rise due to climate change accelerate the intrusion process. This paper investigates the effects of aquifer bed slope and seaside slope on saltwater intrusion. The possible impacts of increasing seawater head due to sea level rise and decreasing groundwater level due to over-pumping and reduction in recharge are also investigated. A numerical model (SEAWAT) is applied to well-known Henry problem to assess the movement of the dispersion zone under different settings of bed and seaside slopes. The results showed that increasing seaside slope increased the intrusion of saltwater by 53.2% and 117% for slopes of 1:1 and 2:1, respectively. Increasing the bed slope toward the land decreased the intrusion length by 2% and 4.8%, respectively. On the other hand, increasing the bed slope toward the seaside increased the intrusion length by 3.6% and 6.4% for bed slopes of 20:1 and 10:1, respectively. The impacts of reducing the groundwater level at the land side and increasing the seawater level at the shoreline by 5% and 10% considering different slopes are studied. The intrusion length increased under both conditions. Unlike Henry problem, the current investigation considers inclined beds and sea boundaries and, hence, provides a better representation of the field conditions.
Highlights
Saltwater intrusion (SWI) is a serious and common problem in many coastal aquifers around the globe
The results showed that increasing seawater level will increase the inland migration of SWI [18] used SEAWAT to simulate the SWI under different hydraulic parameters in coastal aquifers
The seawater level level is expected to increase due to climate change, and and groundwater levels in coastal aquifers expected decreasedue duetotothe the expected expected increase increase of groundwater levels in coastal aquifers areare expected to to decrease of groundwater abstractions to substitute for the reduction of rainfall and natural recharge
Summary
Saltwater intrusion (SWI) is a serious and common problem in many coastal aquifers around the globe. The degree and severity of the problem depend on several natural and man-made parameters [1,2]. To investigate SWI problems, density dependent groundwater flow and solute transport models are employed to simulate water flow and concentration pattern in the transition zone between freshwater and saltwater bodies. The saltwater body moves inland, and the problem becomes more pronounced. In severe cases, drinking and irrigation wells might be abandoned due to high water salinity. Over-pumping of groundwater from coastal aquifers disturbs the long-term hydraulic balance between freshwater and saltwater bodies and accelerates inland migration of saltwater [3,4]
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