Evaluation of the accuracy of determination of the chemical denudation based on numerical geochemical modeling

• Autorzy: Szostakiewicz-Hołownia M. , Małecki J.J. , Matyjasik M.
• Konferencja: Groundwater quality sustainability : XXXVIII IAH Congress in Kraków
• Języki publikacji: EN

Abstrakty

EN

Denudation refers to processes that are destructive and reshaping the surface of the Earth. Some of these processes causing removal of the rocks from the land masses are known as the chemical denudation. The results presented in this article focus on quantitative analysis of the chemical denudation using a new approach based on numerical models and evaluation of the computed rates. This evaluation has been conducted in two stages: qualitative and quantitative. Qualitative analysis evaluated processes occurring in aquifers based on the weathering studied in thin sections made of the native aquifer rock material and buried in these aquifers. Quantitative analysis was based on determination of dissolved amount of the rock in the dissolved discs that were placed both in the aquifers and on the ground surface. Observed denudation in the field rock discs is consistent with the results of the numerical modeling, which in the authors’ view suggests validity of the used approach.

Słowa kluczowe

EN

chemical denudation; geochemical modeling; West Tatra Mountains

• Wydawca: Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy
• Czasopismo: Biuletyn Państwowego Instytutu Geologicznego
• Rocznik: 2010
• Tom: nr 441 Hydrogeologia z. 10
• Strony: 175--181
• Opis fizyczny: Bibliogr. 32 poz., rys., tab., wykr.

Twórcy

autor

Szostakiewicz-Hołownia M.

• University of Warsaw, Faculty of Geology, Żwirki i Wigury 93, 02-089 Warszawa, Poland

autor

Małecki J.J.

• University of Warsaw, Faculty of Geology, Żwirki i Wigury 93, 02-089 Warszawa, Poland

autor

Matyjasik M.

• Weber State University, Department of Geosciences, 2507 University Circle, Ogden UT, 84408-2507, USA

Bibliografia

• 1. ALLEN P.A., 2000 — Earth surface processes. Wyd. Nauk. PWN, Warszawa.
• 2. ANDREJCHUK V., 2000 — Karst and suffosion in siliceous rocks of the West Siberia: preliminary note. Kras i Speleologia, 10: 135–142.
• 3. APPELO C.A.J., POSTMA D., 1993 — Geochemistry groundwater and pollution. Balkena, Rotterdam.
• 4. BAC-MOSZASZWILI M., 1998 — Budowa geologiczna jednostek reglowych Tatr Zachodnich. Stud. Geol. Pol., 3: 113–136.
• 5. BOUCHARD M., JOLICOEUR S., 2002 — Chemical weathering studies in relation to geomofphological research in southeastern Canada. Geomorphology, 32: 213–238.
• 6. DEMIREL Z., CÜNEYT G., 2006 — Hydrogeochemical evolution of groundwater in Mediterranean coastal aquifer, Mersin-Erdemil basin (Turkey). Environ. Geol., 3: 477–487.
• 7. FAURE G., 1998 — Principles and Applications of Geochemistry. Prentice Hall, Inc., Upper Saddle River, New Jersey.
• 8. GUZIK K., GUZIK S., JACZYNOWSKA W., SOKOŁOWKI S., 1955 — Mapa geologiczna Tatr w skali 1:10 000, arkusz Łysanki. Wyd. Geol., Warszawa.
• 9. HODSON A., TRANER M., VATNE G., 2002 – Contemporary rates of chemical denudation and atmospheric CO2 sequestration in glacier basins: an Arctic perspective. Earth Surfaces Process and Landforms, 13: 1447–1471.
• 10. KEHEW A.E., 2001 — Applied chemical hydrogeology. Prentice Hall, Inc., Upper Saddle River, New Jersey.
• 11. KOTARBA A., 1972 — Powierzchniowa denudacja chemiczna w wapieniach dolomitycznych Tatr Zachodnich. Pr. Inst. Geol. PAN, 96: 119.
• 12. LACHMAR T., BURK N., KOLESAR P., 2006 — Groundwater contribution of metals from an abandoned mine to the North Fork of American Fork River, Utah. Water, Air, and Soil Pollution, 1–4: 103–120.
• 13. LANGMUIR D., 1997 — Aqueous environmental geochemistry. Prentice Hall, Inc., Upper Saddle River, New Jersey.
• 14. MACIOSZCZYK A., DOBRZYŃSKI D., 2002 — Hydrogeochemia strefy aktywnej wymiany wód podziemnych. Wyd. Nauk. PWN, Warszawa.
• 15. MACIOSZCZYK A., WITCZAK S., 1999 — Current problems of hydrogeochemstry. Biul. Państw. Inst. Geol., 388: 139–156 [In Polish].
• 16. MAŁECKI J.J., SZOSTAKIEWICZ M., 2004 — Quantitative estimates of chemical denudation rates of the Suchy stream drainage basin (Podhale Basin) using numerical models. In: Hydrogeochemia 04. Wyd. VSB-TU Ostrava, VIII: 61–65.
• 17. MAŁECKI J., SZOSTAKIEWICZ M., 2006 — The role of evapotranspiration in the formation of the chemical composition of shallow groundwater (the Polish Tatras). Acta Geol. Pol., 56: 485–492 [in Polish].
• 18. MAŁECKI J., SZOSTAKIEWICZ M., 2008 — Application of a numerical model for calculating chemical denudation rates in the Biały Potok drainage basin (West Tatra Mts.). Biul. Państw. Inst. Geol., 431: 127–134 [in Polish].
• 19. MANECKI M., ECKSTEIN Y., MANECKI A., MAŁECKA D., MAŁECKI J., 1994 — Monitoring neutralization processes of acid rains with mineral components of atmospheric dust and soils. Fall Meating, American Geophysical Union. San Francisco.
• 20. MATSUKURA Y., HIROSE T., OGUCHI CH.T., 2001 — Rates of chemical weathering of porous rhyolites: 5-year measurements using the weight-loss method. Catena, 43: 341–347.
• 21. MICHALIK K., 1958 — Mapa geologiczna Tatr w skali 1:10 000, arkusz Czerwone Wierchy. Wyd. Geol., Warszawa.
• 22. PARKHUST D.L., APPELO C.A.J., 1999 — User’s guide to PHREEQC (v. 2) – a computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations. Water – resourses Investigations Report, Denver.
• 23. PAWLIKOWSKI M., MAZUREK J., WIECZOREK J., 1997 — Badania mineralogiczno-petrograficzne skał zbiornikowych wód geotermalnych z otworu Biały Dunajec PAN-1. Gosp. Sur. Miner., 13, 2: 231–238.
• 24. PULINA M., 1992 — Denudacja krasowa. Wyd. UŚ, Katowice.
• 25. PULINA M., 1999 — Kras. Formy i procesy. Wyd. UŚ, Katowice.
• 26. OZDEMIR A., NALBANTCILAR M.T., 2002 — The investigation of mass transfer in the Karasu karstic aquifer, Konya, Turkey. Hydrogeol. J., 10: 656–661.
• 27. PAZDRO Z., KOZERSKI B., 1990 — Hydrogeologia ogólna. Wyd. Geol., Warszawa.
• 28. SZOSTAKIEWICZ M., MAŁECKI J., 2006 — Quantitative estimation of chemical denudation by using geochemical modelling. Prz. Geol., 54, 11: 1007–1010 [in Polish].
• 29. THORN C., DARMODY R., DIXON J., SCHLYTER P., 2002 — Weathering rates of buried machine-polisched rock disks, Karkevagge Swedish Lapland. Earth Surface Processes and Landforms, 27, 8: 831–845.
• 30. TURNAU-MORAWSKA M., 1953 — Kajper tatrzański, jego petrografia i sedymentologia. Acta Geol. Pol., 3, 1: 33–102.
• 31. ZAMBO L., FORD D.C., 1997 — Limestone dissolution processes in Beke Doline Aggtelek National Park Hungary. Earth Surface Processes and Landforms, 6: 53–1543.
• 32. ZENISOVA Z., FL’AKOVÁ R., ADAMUSOVÁ A., 2002 — Hydrogeochemical modeling in porous and karst-fissure media. Pr. Wydz. Nauk o Ziemi UŚl., 22: 233–240.