Powiadomienia systemowe
- Sesja wygasła!
- Sesja wygasła!
Identyfikatory
Warianty tytułu
A new method of measuring the hydraulic conductivity of the bottom sediment
Języki publikacji
Abstrakty
Interaction of surface water and groundwater is an important element of issue in hydrogeological measurements. Surface water may infiltrate into the subsurface through the bed sediments of rivers and water reservoirs. An opposite direction of reverse water flow through these sediments is also possible with groundwater seeping into surface water. The paper presents two new measuring apparatus: a so-called “filtrometer” and a “gradientmeter”. The filtrometer enables measuring the intensity of water filtration through bed sediments, both during drainage and infiltration. The gradientmeter is designed to measure the hydraulic gradient in the bed sediments. After measuring both of these parameters, it is possible to determine the in situ hydraulic conductivity of these sediments. Usability testing of the new devices was performed under field conditions. The filtrometer and the gradientmeter were used to determine the drainage conditions of a tested section of the Parsêta river. The drainage volume measured with the instruments was in good agreement accordance with the value obtained using the differential water flow method. The proposed new method way of determining the hydraulic parameters of the bed sediments extends the present scope of hydrogeological research.
Czasopismo
Rocznik
Tom
Strony
919--925
Opis fizyczny
Bibliogr. 37 poz., rys., tab., wykr.
Twórcy
autor
- Instytut Geografii Fizycznej i Kształtowania Środowiska Przyrodniczego, Uniwersytet im. Adama Mickiewicza w Poznaniu, ul. Dzięgielowa 27, 61-680 Poznań
autor
- XVI Liceum Ogólnokształcące im. Charlesa de Gaulla w Poznaniu, ul. Tarnowska 27, 61-323 Poznań
Bibliografia
- 1. BAXTER C., HAUER F.R. & WOESSNER W.W. 2003 - Measuring groundwater-stream water exchange: new techniques for installing minipiezometers and estimating hydraulic conductivity. Tran. Am. Fish. Soc., 132: 493-502.
- 2. BELANGER T.V. & KIRKNER R.A. 1994 - Groundwater/surface water interaction in a Florida Augmentation Lake. Lake Reservoir Manage., 8 (2): 165-174.
- 3. BOKUNIEWICZ H., TANIGUCHI M., ISHITOIBI T., CHARETTE M., ALLEN M. & KONTAR E.A. 2008 - Direct measu- res of Submarine Groundwater Discharge (SGD) over a fractured rock aquifer in Ubatuba Brazil. Estuarine, Coastal, Shelf Sci., 76: 466-472.
- 4. BOYLE D.R. 1994 - Design of a seepage meter for measuring groundwater fluxes in the nonlittoral zones of lakes - Evaluation in a boreal forest lake. Limnol. Oceanogr., 39 (3): 670-681.
- 5. BRODIE R.S., BASKARAN S., RANSLEY T. & SPRING J. 2009 - The seepage meter: progressing a simple method of directly measuring water flow between surface water and groundwater systems. Australian J. Earth Sci., 56 (1): 3-11.
- 6. CHENG X. & ANDERSON M.P. 1993 - Numerical simulation of ground-water interaction with lakes allowing for fluctuating lake levels. Ground Water, 31 (6): 929-933.
- 7. CHERKAUER D.A. & MCBRIDE J.M. 1988 - Aremotely operated seepage meter for use in large lakes and rivers. Ground Water, 26 (2): 165-171.
- 8. CHUDZIAK Ł. 2013 - Identyfikacja parametrów filtracyjnych w strefach współdziałania wód powierzchniowych i podziemnych. Rozprawa doktorska, UAM Poznań, UAM Poznañ, seria: Studia i Prace z Geografii i Geologii, 44. Bogucki, Wyd. Nauk.
- 9. CHUDZIAK Ł. & MARCINIAK M. 2012 - Badania laboratoryjne drenażu i infiltracji wody przez osady denne na modelu fizycznym. Biul. Państw. Inst. Geol., 451, Hydrogeologia XIII: 17-25.
- 10. DOWNING J.A. & PETERKA J.J. 1978 - Relationship of rainfall and lake groundwater seepage. Limnol. Oceanogr., 23 (4): 821-825.
- 11. ISIORHO S.A. & MEYER J.H. 1999 - The effects of bag type and meter size on seepage meter measurements. Ground Water, 37 (3): 411-413.
- 12. ISRAELSEN O.W. & REEVE R.C. 1944 - Canal lining experiments in the delta area, Utah. Utah Agr. Exp. Sta. Tech. Bull., 313: 52.
- 13. JANIK B., KOWALIK A. & MARCINIAK M. 1989 - Pomiary infiltrometryczne jako podstawa oceny udziału wód rzecznych w zasilaniu ujęcia drenażowego Reda-Pieleszewo. Prz. Geol., 37 (10): 511-516.
- 14. KARNAUSKAS R.J. & ANDERSON M.P. 1978 - Groundwater lake relationship and ground-water quality in the Sand Plain Province of Wisconsin-Nepco Lake. Ground Water, 16 (4): 273-281.
- 15. KOBAYASHI M. 1993 - Groundwater seepage into Lake Biwa traced by pollutants. IAHS Publication, 215: 143-150.
- 16. LANDON M.K., RUS D.L. & HARVEY F.E. 2001 - Comparison of instream methods for measuring hydraulic conductivity in sandy streambeds. Ground Water, 39 (6): 870-885.
- 17. LEE D.R. 1977 - A device for measuring seepage flux in lakes and estuaries. Limnol. Oceanogr., 22 (1): 140-147.
- 18. LITWIŃSKI M. 1986 - Instrukcja stosowania urządzenia do pomiaru filtracji dennej. Przeds. Geol. w Warszawie, materiały niepublikowane. Arch. PG, Warszawa.
- 19. MACIOSZCZYK A. (red.) 2006 - Podstawy hydrogeologii stosowanej. PWN, Warszawa.
- 20. MARCINIAK M. 1987 - Interpretacja pomiarów infiltrometrycznych oraz ocena przesączania z Redy do warstwy wodonośnej w rejonie studni badawczej w Pieleszewie. Mat. Symp. „Badania hydrogeologiczne ujęć infiltracyjnych” Gowidlinek. Przeds. Geol., Gdańsk: 47-63.
- 21. MARTINEZ Ch.J. 2009 - Mini-piezometers for measuring groundwater to surface water exchange. University of Florida Cooperative Extension Service, AE454, http://edis.ifas.ufl.edu/AE454.
- 22. MARTINEZ Ch.J. 2010 - Seepage meters for measuring groundwater-surface water exchange. University of Florida Cooperative Extension Service, AE465, http://edis.ifas.ufl.edu/AE465.
- 23. MULLIGAN A.E. & CHARETTE M.A. 2009 - Groundwater flow to the coastal ocean. [W:] Encyclopedia of Ocean Sciences, Academic Press, Oxford: 88-97.
- 24. MURDOCH L.C. & KELLY S.E. 2003 - Factors affecting the performance of conventional seepage meters. Water Resources Res., 39 (6): SWC 2-1-SWC 2-10.
- 25. PAULSEN R.J., SMITHCh.F., O’ROURKE D. & TENG-FONG WONG 2001 - Development and evaluation of an ultrasonic ground water seepage meter. Ground Water, 39 (6): 904-911.
- 26. PAZDRO Z. & KOZERSKI B. 1990 - Hydrogeologia ogólna. Wyd. Geol., Warszawa.
- 27. PLECZYŃSKI J. 1981 - Odnawialność zasobów wód podziemnych. Wyd. Geol., Warszawa.
- 28. ROSENBERRY D.O. 2005 - Integrating seepage heterogeneity with the use of ganged seepage meters. Limnol. Oceanogr.: Methods 3: 131-142.
- 29. ROSENBERRY D.O. 2008 - A seepage meter designed for use in flowing water. J. Hydrol., 359: 118-130.
- 30. ROSENBERRY D.O. & MORIN R.H. 2004 - Use of an electromagnetic seepage meter to investigate temporal variability in lake seepage. Ground Water, 42 (1): 68-77.
- 31. ROSENBERRY D.O. & LABAUGH J.W. 2008 - Field techniques for estimating water fluxes between surface water and ground water. U.S. Geol. Surv. Techn. Methods 4-D2.
- 32. SANDERS L.L. 1998 - A manual of field hydrogeology. Prentice Hall, New Jersey.
- 33. SHAW R.D. & PREPAS E.E. 1989 - Anomalous, short-term influx of water into seepage meters. Limnol. Oceanogr., 34 (7): 1343-l351.
- 34. SIMPKINS W.W. 2006 - A multiscale investigation of ground water flow at Clear Lake, Iowa. Ground Water, 44 (1): 35-46.
- 35. TANIGUCHI M. & FUKUO Y. 1993 - Continuous measurements of ground-water seepage using an automatic seepage meter. Ground Water, 31 (4): 675-679.
- 36. WINTER T.C. 2000 - Interaction of ground water and surface water. Proceeding of the Ground-Water/Surface-Water Interactions Workshop: 15-20.
- 37. WOESSNER W.W. & SULLIVAN K.E. 1984 - Results of seepage meter and mini-piezometer study, Lake Mead, Nevada. Ground Water, 22 (5): 561-568.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2cd945da-8058-4111-b6b6-3d5e6e9eda8a