Abstract
There are a number of practical reasons for studying groundwater recharge via the riverbed, so-called riverbed infiltration. The most important are quantitative and qualitative reasons:
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The groundwater recharge (or river water infiltration) is increasing the yield of wells.
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Intrusion of river water can result in degradation or improvement of aquifer groundwater quality, mainly when groundwater extraction is large enough and long lasting.
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References
Bugél, E. (1881) Bedeutung des Trinkwassers mit besonderer Berücksichtigung der Brunnenwässer und der Gesundheitsverhältnisse der Stadt Presburg, Druck von Carl Angermayer.
Rosenau, M.J. (1935) Preventive medicine and hygiene, D Appleton-Century Company, New York.
Kinzelbach, W., and Schäfer, W. (1989) Coupling of chemistry and transport - Ground water management, quantity and quality, in Proceedings of the Benidorm Symposium, Oct. 1989, IAHS publ. No. 188, pp. 237–259.
Schäfer, W. (1992) Numerishe modellierung mikrobiell beeinflußter stofftransportvorgänge im groundwasser, Schriftenreihe gwf Wasser, Abwasser, Band 23, R. Oldenbourg Verlag München Wien.
Rodák, D. (1999) Procesy tvorby zásob a kvality podzemnych vôd v príbreznej zóne zdrze vodného diele Gabčíkovo, Dissertation, Faculty of Natural Sciences, Comenius University, Bratislava, Slovakia.
Appelo, C.A.J., and Postma, D. (1993) Geochemistry, ground water and pollution, A.A. Balkema, Rotterdam.
Luckner, L., and Schestakow, W.M. (1991) Migration processes in the soil and ground water zone, Lewis Publishers.
Daubner, I. (1972) Mikrobiologie des wassers, Academie, Verlag, Berlin.
Rodák, D., and Mucha I. (1995) Current activities in the ground water quality monitoring: Monitoring wells, methods of sampling, in situ measurements, Gabčíkovo part of the hydroelectric power project -Environmental impact review, Faculty of Natural Sciences, Comenius University, Bratislava, Slovakia, pp. 71–78.
Rodák, D., and Mucha I. (1997) Stoffwandlungsprozesse und ihre gezielte Beeinflussung bei der Infiltration aus Stauhaltungen am Beispiel der Donaustufe von Gabčíkovo (Studie), Proceedings des Dresdner Grundwasserforschungzentrums, e.V. Fachtagung Aktuelle Arbeiten der Grundwasserforschung und-applikation, Dresden, 1997, pp. 141–150.
Barcelona, M., Gibb, J.A., and Miler, R.A. (1983) A Guide to the Selection of Materials for Monitoring Wells Construction and Ground Water Sampling, Illinois Department of Energy and Natural Resources, Champaign, Illinois.
Nielsen, D.M. (1991) Practical handbook of ground-water monitoring, Lewis Publishers, Michigan.
Stumm, W., and Morgan, J. (1981) Aquatic chemistry, John Wiley & Sons, New York.
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Mucha, I., Rodák, D., Hlavatý, Z., Banský, L. (2002). Groundwater Quality Processes after Bank Infiltration from the Danube at Čunovo. In: Ray, C. (eds) Riverbank Filtration: Understanding Contaminant Biogeochemistry and Pathogen Removal. NATO Science Series, vol 14. Springer, Dordrecht. https://doi.org/10.1007/978-94-010-0479-4_9
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DOI: https://doi.org/10.1007/978-94-010-0479-4_9
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