Dye tracing of the Lusaka karstified aquifer system: implications towards urban groundwater quality protection.
| Autor: | Simaubi M; Integrated Water Resource Management Centre, Department of Geology, School of Mines, University of Zambia, P.O. Box 32379, Lusaka, Zambia., Banda K; Integrated Water Resource Management Centre, Department of Geology, School of Mines, University of Zambia, P.O. Box 32379, Lusaka, Zambia. Kawawa.Banda@unza.zm., Levy J; Institute for the Environment and Sustainability, Miami University, Oxford, OH, USA., Meiman J; United States National Park Service, Ret., Union, KY, USA., Nyambe I; Integrated Water Resource Management Centre, Department of Geology, School of Mines, University of Zambia, P.O. Box 32379, Lusaka, Zambia. |
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| Jazyk: | angličtina |
| Zdroj: | Environmental monitoring and assessment [Environ Monit Assess] 2023 May 25; Vol. 195 (6), pp. 732. Date of Electronic Publication: 2023 May 25. |
| DOI: | 10.1007/s10661-023-11272-z |
| Abstrakt: | Management of groundwater resources requires a large amount of data, coupled with an understanding of the aquifer system behavior. In developing countries, the scarcity in groundwater data has led to aquifers being managed according to rule-of-thumb standards or even abandoned as unmanageable at times. Groundwater quality protection thus has been through prescribed separation distances often without due regard for internal and boundary characteristics that affect response rates of groundwater movement, attenuation of pollutants, and recharge. In this study, we examine the boundary characteristics of the highly vulnerable karst aquifer system in the rapidly expanding city of Lusaka using a dye tracer technique. We investigate the flow dynamics (magnitude and direction) of groundwater using dye tracer dyes (fluorescein and rhodamine) spiked in pit latrines and observed at discharge springs. The results provide irrefutable evidence that pit latrines are a source and a pathway to contamination of groundwater. Dye tracer movement in groundwater was rapid, estimated at 340 and 430 m/day for fluorescein and rhodamine, respectively, through interconnected conduit density. The vadose zone (epikarst) tends to store diffuse recharge before release to the phreatic zone. These rapid groundwater movements render regulatory separation minimum distances of 30 m between abstraction wells and pit latrines/septic tanks in such environments to be an ineffective means of reducing contamination. The policy focus in the protection of groundwater quality should henceforth be on robust sanitation solutions especially for low-income communities that recognize the socio-economic diversity. (© 2023. The Author(s), under exclusive licence to Springer Nature Switzerland AG.) |
| Databáze: | MEDLINE |
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