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- 01JE61PYW5YREJKYJW6BWEMRHW classification U.
- 01JE61PYW5YREJKYJW6BWEMRHW date "2024".
- 01JE61PYW5YREJKYJW6BWEMRHW language "und".
- 01JE61PYW5YREJKYJW6BWEMRHW type conference.
- 01JE61PYW5YREJKYJW6BWEMRHW hasPart 01JE625V1F914F9YZYGAQER1GN.pdf.
- 01JE61PYW5YREJKYJW6BWEMRHW presentedAt urn:uuid:af383f77-363f-4a42-b42a-56a97523c842.
- 01JE61PYW5YREJKYJW6BWEMRHW abstract "The groundwater flow system in the Jimma area is not well understood and has not been subject to research. The paucity of knowledge of the system has an impact on groundwater management. This study aims to understand the groundwater flow system in the Jimma area by utilizing hand-dug wells for water-level monitoring, and spring discharge monitoring with response to rainfall. In addition, topographical, lithological, and hydrogeochemical data were utilized to study the groundwater system. Results indicate that shallow groundwater table fluctuations are influenced by local recharge from summer rainfall (June-August) and water extraction. Hydrographs from hand- dug wells show groundwater levels rising to a maximum during the rainy season, with fluctuations directly re- sponding to precipitation. These wells are situated at various topographic elevations and lithological types (highly weathered basalt and ignimbrite, sand, and alluvial deposits). Most groundwater levels in monitoring wells exhibit a seasonal fluctuation pattern, increasing during the wet season. Conversely, a deep well monitored using a diver shows minimal fluctuations and responds less due to the confined nature of its aquifer. The constructed piezomet- ric map indicates water levels follow surface topography and groundwater flow is towards lowlands areas in the southerly direction. Based on the insights of topography, lithology, the piezometric map, and hydrogeochemical data, a conceptual groundwater flow model was developed. Based on these findings, the groundwater flow system in the Jimma area is classified into local, intermediate, and deep (regional) flow systems. These results could be used as a basic reference for groundwater management in the Jimma area, allowing the evaluation of further evolutions in the future.".
- 01JE61PYW5YREJKYJW6BWEMRHW author 35b55ee8-eefa-11ea-a3c8-fec7140694e7.
- 01JE61PYW5YREJKYJW6BWEMRHW author F419120A-F0ED-11E1-A9DE-61C894A0A6B4.
- 01JE61PYW5YREJKYJW6BWEMRHW author urn:uuid:d73f1885-944a-454d-b19a-e5c09bd9df47.
- 01JE61PYW5YREJKYJW6BWEMRHW dateCreated "2024-12-03T10:40:31Z".
- 01JE61PYW5YREJKYJW6BWEMRHW dateModified "2024-12-12T21:14:22Z".
- 01JE61PYW5YREJKYJW6BWEMRHW name "Groundwater flow system and hydrochemical changes: Insights from flow path analysis; the case of Jimma area, Ethiopia".
- 01JE61PYW5YREJKYJW6BWEMRHW publisher urn:uuid:256a2cf4-8c2f-4835-875b-738f6f15917b.
- 01JE61PYW5YREJKYJW6BWEMRHW sameAs LU-01JE61PYW5YREJKYJW6BWEMRHW.
- 01JE61PYW5YREJKYJW6BWEMRHW sourceOrganization urn:uuid:61738481-eb4a-4dbf-9a82-58846ce00abf.
- 01JE61PYW5YREJKYJW6BWEMRHW type U.