[Báldi T. (1998). Magyarország epikontinentális oligocén képződményeinek rétegtana. In I. Bérczi & Á. Jámbor (Eds.), Magyarország geológiai képződményeinek rétegtana (pp. 419-436). Budapest: MOL Hun. Oil and Gas Comp. and Geol. Inst. Hun., Plc.- MÁFI, (in Hungarian).]Search in Google Scholar
[Cheng A-L. & Huang W. L. (2004). Selective adsorption of hydrocarbon gases on clays and organic matter. Organic Geochemistry, 35(4), 413-423.10.1016/j.orggeochem.2004.01.007]Search in Google Scholar
[Daqing W., Guiyi D., Peng Y. & Jinlian P. (2006). Adsorption of Pentachlorophenol onto Oxide and Clay Minerals: Surface Reaction Model and Environmental Implications. Acta Geologica Sinica, Journal of the Geological Society of China, 80(2), 192-199.10.1111/j.1755-6724.2006.tb00230.x]Search in Google Scholar
[Eltantwy I. M. & Arnold P. W. (1972). Adsorption of n-alkanes on Wyoming montmorillonite. Nature Physical Science, 237, 123-125.10.1038/physci237123a0]Search in Google Scholar
[Gitipour S., Baghvand A. & Givehchi S. (2006). Adsorption and Permeability of Contaminated Clay Soils to Hydrocarbons. Pakistan Journal of Biological Sciences, 9(3), 336-340.10.3923/pjbs.2006.336.340]Search in Google Scholar
[Goss K. U. (1993). Effects of Temperature and Relative Humidity on the Sorption of Organic Vapors on Clay Minerals. Environmental Science & Technology, 27(10), 2127-2132.10.1021/es00047a019]Search in Google Scholar
[Jaynes W. F. & Boyd S. A. (1991). Clay Mineral Type and Organic Compound Sorption by Hexadecyltrimethly-ammonium-Exchanged Clays. Soil Science Society of America Journal, 55(1), 43-48.10.2136/sssaj1991.03615995005500010007x]Search in Google Scholar
[Kalmár J., Szurkos G. & Kovács-Pálffy P. (2003). Üledékképződés és kőzettéválás a dél-budai Kiscelli Agyag Formációban, a IV. sz. metró nyomvonalán mélyült fúrásokban (Sedimentation and lithification in the Kiscell Clay Formation from South Buda, in the boreholes deepened in the pathway of the (projected) IVth Metro Line). MÉFI Évi Jelentése, 2000-2001 (Annual Report of the Hungarian Geological Institute of 2000-2001), 107-119 (in Hungarian).]Search in Google Scholar
[Kralik M. (1999). A rapid procedure for environmental sampling and evaluation of polluted sediments. Applied Geochemistry, 14(6), 807-816.10.1016/S0883-2927(98)00096-1]Search in Google Scholar
[Madsen L., Grahl-Madsen L., Grřn C., Lind I. & Engell J. (1996). Adsorption of polar aromatic hydrocarbons on synthetic calcite. Organic Geochemistry, 24(12), 1151-1155.10.1016/S0146-6380(96)00096-4]Search in Google Scholar
[Marynowski L., Wyszomirski P. & Kurkiewicz S. (2006). The characteristics of organic matter from the triassic clays of NW margin of the Holy Cross Mts. (Poland) - Preliminary report. Mineralogia Polonica, 37(2), 117-125.]Search in Google Scholar
[Marynowski L., Zaton M., Simoneit B. R. T., Otto A., Jedrysek M. O., Grelowski C. & Kurkiewicz S. (2007). Compositions, sources and depositional environments of organic matter from the Middle Jurassic clays of Poland. Applied Geochemistry, 22(11), 2456-2485.10.1016/j.apgeochem.2007.06.015]Search in Google Scholar
[Marynowski L. & Wyszomirski P. (2008). Organic geochemical evidences of early-diagenetic oxidation of the terrestrial organic matter during the Triassic arid and semi arid climatic conditions. Applied Geochemistry, 23(9), 2612-2618.10.1016/j.apgeochem.2008.05.011]Search in Google Scholar
[Namkoong W., Park J.-S. & VanderGheynst J. S. (2003). Biofiltration of gasoline vapor by compost media. Environmental Pollution, 121(2), 181-187.10.1016/S0269-7491(02)00223-3]Search in Google Scholar
[Poe S. H., Valsaraj K. T., Thibodeaux L. J. & Springer C. (1988). Equilibrium vapor phase adsorption of volatile organic chemicals on dry soils. Journal of Hazardous Materials, 19(1), 17-32.10.1016/0304-3894(88)85071-4]Search in Google Scholar
[Rhue R. D., Rao P. S. C. & Smith R. (1988). Vapor-phase adsorption of alkylbenzenes and water on soils and clays. Chemosphere, 17(4), 727-741.10.1016/0045-6535(88)90253-6]Search in Google Scholar
[Sawhney B. L. (1985). Vapor-phase sorption and polymerization of phenols by smectite in air and nitrogen. Clays and Clay Minerals, 33(2), 123-127.10.1346/CCMN.1985.0330206]Search in Google Scholar
[Sheng G. & Boyd S. A. (2000). Polarity Effect on Dichlorobenzene Sorption by Hexadecyltrimethylammonium-Exchanged Clays. Clays and Clay Minerals,48(1), 43-50.10.1346/CCMN.2000.0480105]Search in Google Scholar
[Slabaugh W. H. & Vasofsky R. W. (1975). Adsorption of xylene by organoclays. Clays and Clay Minerals, 23(6), 458-461.10.1346/CCMN.1975.0230608]Search in Google Scholar
[Tóth J. (2008). Sorption of the volatile hydrocarbons compounds by Oligocene clay. Mineralogia - Special Papers, 32, 162.]Search in Google Scholar
[Tóth J. & Knapp E. (2007). Sorption properties of light hydrocarbon contaminated clay under defined condition. Central European Geology, 50(1), 79-94.10.1556/CEuGeol.50.2007.1.6]Search in Google Scholar
[Tóth J. & Török E. (2006). Geochemistry-based modeling of hydrocarbon contamination. European Geologist, 22, 32-35.]Search in Google Scholar
[Velde B. (1992). Introduction to Clay Minerals. Chemistry, origins, uses and environmental significance. London, New York: Chapman & Hall.10.1007/978-94-011-2368-6]Search in Google Scholar
[Wolfe T. A., Demirel T. & Baumann E. R. (1985). Interaction of Aliphatic Amines with Montmorillonite to Enhance Adsorption of Organic Pollutant. Clays and Clay Minerals, 33(4), 301-311.10.1346/CCMN.1985.0330405]Search in Google Scholar
[Yaron B., Sutherland P., Galin T. & Acher A. J. (1989). Soil pollution by petroleum products, II. Adsorption-desorption of "kerosene" vapors on soils. Journal of Contaminant Hydrology, 4(4), 347-358.10.1016/0169-7722(89)90033-8]Search in Google Scholar