Groundwater recharge in the Akaki catchment,central Ethiopia: evidence from environmental isotopes (δ18O, δ2H and 3H) and chloride mass balance |
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Authors: | Molla Demlie Stefan Wohnlich Birhanu Gizaw Willibald Stichler |
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Institution: | 1. Ruhr University of Bochum, Department of Applied Geology, Universitaetsstr. 150, D‐44801 Bochum, Germany;2. Mekelle University, Department of Applied Geology, PO Box 231 Mekelle, Ethiopia;3. Geological Survey of Ethiopia, PO Box 40069 Addis Ababa, Ethiopia;4. Laboratory of GSF (Research Center for Environment and Health, Institute for Groundwater Ecology), Ingolstaedter Landstr. 1, D‐85764 Neuherberg, Germany |
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Abstract: | Recharge patterns, possible flow paths and the relative age of groundwater in the Akaki catchment in central Ethiopia have been investigated using stable environmental isotopes δ18O and δ2H and radioactive tritium (3H) coupled with conservative chloride measurements. Stable isotopic signatures are encoded in the groundwater solely from summer rainfall. Thus, groundwater recharge occurs predominantly in the summer months from late June to early September during the major Ethiopian rainy season. Winter recharge is lost through high evaporation–evapotranspiration within the unsaturated zone after relatively long dry periods of high accumulated soil moisture deficits. Chloride mass balance coupled with the isotope results demonstrates the presence of both preferential and piston flow groundwater recharge mechanisms. The stable and radioactive isotope measurements further revealed that groundwater in the Akaki catchment is found to be compartmentalized into zones. Groundwater mixing following the flow paths and topography is complicated by the lithologic complexity. An uncommon, highly depleted stable isotope and zero‐3H groundwater, observed in a nearly east–west stretch through the central sector of the catchment, is coincident with the Filwoha Fault zone. Here, deep circulating meteoric water has lost its isotopic content through exchange reactions with CO2 originating at deeper sources or it has been recharged with precipitation from a different rainfall regime with a depleted isotopic content. Copyright © 2006 John Wiley & Sons, Ltd. |
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Keywords: | Akaki catchment chloride mass balance environmental isotopes Ethiopia groundwater recharge piston and preferential flow |
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