Conception of vadose zone research in the area of Goczałkowice reservoir

• Autorzy: Czekaj J. , Trepka K.

Identyfikatory

DOI

10.2478/ctg-2014-0003

• Języki publikacji: EN

Abstrakty

EN

Goczałkowice reservoir is one of the main source of drinking water for Upper Silesia Region. In reference to Water Frame Directive matter since 2010 the strategic research project: „Integrated system supporting management and protection of dammed reservoir (ZiZoZap)”, which is being conducted on Goczałkowice reservoir, has been pursued. In the framework of this project complex groundwater monitoring is carried on. One aspect is vadose zone research, conducted to obtain information about changes in chemical composition of infiltrating water and mass transport within this zone. Based on historical data and the structural model of direct catchment of Goczałkowice reservoir location of the vadose zone research site was selected. At the end of November 2012 specially designed lysimeter was installed with 10 MacroRhizon samplers at each lithological variation in unsaturated zone. This lysimeter, together with nested observation wells, located in the direct proximity, create the vadose zone research site which main aim is specifying the amount of nitrate transport in the vertical profile.

Słowa kluczowe

EN

quaternary aquifer; Goczałkowice reservoir; groundwater monitoring; MacroRhizons Sammler

PL

czwartorzęd; warstwa wodonośna; zbiornik Goczałkowice; monitoring wód podziemnych

• Wydawca: De Gruyter
• Czasopismo: Contemporary Trends in Geoscience
• Rocznik: 2013
• Tom: Vol. 2, iss. 1
• Strony: 22--26
• Opis fizyczny: Bibliogr. 8 poz., rys., wykr.

Twórcy

autor

Czekaj J.

• University of Silesia, Faculty of Earth Science, Department of Hydrogeology and Engineering Geology, Sosnowiec, 60 Będzińska street

autor

Trepka K.

• University of Silesia, Faculty of Earth Science, Department of Hydrogeology and Engineering Geology, Sosnowiec, 60 Będzińska street

Bibliografia

• 1. Czekaj J., Witkowski A.J., 2012: Model budowy czwartorzędowego piętra wodonośnego w rejonie zbiornika Goczałkowice. Biuletyn Państwowego Instytutu Geologicznego, Hydrogeologia XII, nr 451, p. 27-33
• 2. Eijkelkamp, 2003: Operation instruction. MacroRhizon soil moisture samplers 19.21.35/36. http://www.rhizonsphere.com/macrorhizons: available at 28.07.2013
• 3. Kempa J., Bielewicz R., 2004: Baza danych GIS mapy hydrogeologicznej Polski 1:50 000. Pierwszy Poziom Wodonośny. Występowanie i hydrodynamika. Objaśnienia. Arkusz Pszczyna (992).
• 4. Knight, B.P., Chaudri, A.M., McGrath, S.P., and Giller, K.E., 1998: Determination of chemical availability of cadmium and zinc in soils using inert soil moisture samplers. Environmental Pollution, nr 99, p. 293 – 298
• 5. Małecki J.J., 1998: Rola strefy aeracji w kształtowaniu składu chemicznego płytkich wód podziemnych wybranych środowiska hydrogeochemicznych. Biuletyn Państwowego Instytutu Geologicznego, nr 381
• 6. Shotbolt I., 2010: Pore water sampling from lake and estuary sediments using Rhizon samplers. Journal of Paleolimnology, nr 44, p. 695-700
• 7. Singer J.H., Seaman J.C., Aburime S.A., Harris J., and Karapatakis D., 2007: An improved technique for soil solution sampling in the vadose zone utilizing real-time data. Conference Materials of the Georgia Water Resources Conference, 27 – 29.03.2007
• 8. Tye, A.M., Young, S.D., Crout, N.M., Zhang, H., Preston, S., Barbosa- Young, S.D., Crout, N.M., Zhang, H., Preston, S., Barbosa-Jefferson, V.L., Davison, W., McGrath, S.P., Paton, G.I., Kilham, K., and Resende, L., 2003. Predicting the activity of Cd2+and Zn2+ in soil pore water from the radiolabile metal fraction. Geochimca et Cosmochimca Acta, nr 67, p. 375 –385

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.