Evaluation of climate change effects in a coastal aquifer in Morocco using a density-dependent numerical model |
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| Authors: | Júlio Ferreira Carneiro Mimoun Boughriba António Correia Yassine Zarhloule Abdelkrim Rimi Boubker El Houadi |
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| Affiliation: | 1.Geophysical Centre of évora,University of évora,évora,Portugal;2.Laboratory of Hydrogeology-Environment,Faculty of Sciences,Oujda,Morocco;3.Department of Earth Sciences,Scientific Institute,Rabat,Morocco;4.Hydraulic Basin Agency of the Moulouya,Oujda,Morocco |
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| Abstract: | A density-dependent numerical groundwater model was applied to study the climate change impact in a shallow aquifer in the Mediterranean coast of Morocco, the Saïdia aquifer. The stresses imposed to the model were derived from the IPCC emission scenarios and included recharge variation and sea level rise. The main effect of the climate change in the Saïdia aquifer will be a decrease in renewable resources, which in the worst-case scenario may decrease to 50–60% of present-day values, due to the decline in recharge and to a reduced inflow from the adjacent Triffa aquifer. The water quality will be affected mostly in the area immediately adjacent to the seashore, where salinity may increase up to 30 g/l. Localised areas may see a decrease in salinity due to the induced freshwater recharge from Oued Moulouya River and diminished inflow from high-salinity springs. |
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