Aleš Kapička

RNDr. Aleš Kapička, CSc je vědeckým pracovníkem na Geomagnetickém oddělení. Absolvoval Matematicko-fyzikální fakultu UK Praha, obor fyzika (RNDr v r.1972). Vědeckou hodnost (CSc) obdržel v r. 1979 v GFÚ ČSAV.

Věnuje se magnetickým vlastnostem hornin  minerálů i půd a jejich aplikacemi  při studiu kontaminace životního prostředí a pro popis dynamiky v půdních systémech. Byl spoluorganizátorem  vědeckých symposií na EGU (1996, 1998, 2009, 2017), EHPRG (2006), AOGS (2009, 2011, 2015), EUROSOIL (2012).

Vybrané publikace

• Kapicka, A., 1988. Anisotropy of magnetic susceptibility in a weak magnetic field induced by stress. Phys.|Earth Planet. Int. 51, 349- 354.
• Kapička, A.,Sjöberg, B., 1993. Hysteresis effect of varying concentrations of magnetite, hematite, pyrrhotite and greigite grains in a diamagnetic matrix. Studia geoph.et geod., 4, 423-432.
• Hejda, P., Kapička, A., Petrovský, E. & Sjoberg, B., 1994. Analysis of hysteresis curves of samples with magnetite and hematite grains. IEEE Trans. Magn., 30. 881-883.
• Wikström, A., Sjöberg, B., Kapička,A.,1997. A precursory study of magnetic fabric in the transition zone between magmatic and metamorphic textures in the Askersund granitoid, Sweden. GFF, Vol. 119, 285-290.
• Kapička, A. Petrovský, E. Hrouda, F. Pohl, J., 1998. Changes in magnetic parameters of rocks under pressure conditions of the Earth’s crust: relationship to magnetic mineralogy, Review of High Pressure Sci. and Technol., 7, 69-71
• Kapička A., Petrovský E., Ustjak S. & Macháčková K., 1999: Proxy mapping of fly-ash pollution of soils around a coal-burning power plant: a case study in the Czech republic. J. Geochem. Explor., 66, 291-297.
• Petrovský, E. Kapička, A. Jordanova, N. Knab, M. Hoffmann, V., 2000. Low-field magnetic susceptibility: a proxy method of estimating increased pollution of different environmental systems, Environmental Geology, 39, 312-318.
• Pospelova, G.A. Kapicka, A. Lyubin, V.P. Saronova, Z.V., 2001. Application of scalar magnetic rock parameters to the reconstruction of climate coeval with the deposition of sediments in the Kudaro-1 and Kudaro-3 caves, South Ossetia, Georgia. Izv. Phys Solid Earth 37, 844-854
• Kapička, A. Jordanova, N. Petrovský, E. Ustjak, S., 2001. Effect of different soil conditions on magnetic parameters of power-plant fly ashes, J. of Appl.Geophys., 48 (2), 93-102.
• Kapička, A. Jordanova, N. Petrovský, E. Podrázský, V. (2003). Magnetic study of weakly contaminated forest soils, Water, Air and Soil Pollution, 148, 31-44.
• Kapička ,A. Hoffmann, V. Petrovský, E., 2003. Pressure instability of magnetic susceptibility of pyrrhotite bearing rocks from the KTB borehole, Studia geoph.geod., 47 (2), 381-391
• Petrovský, E. Hůlka, Z. Kapička, A., 2004. A new tool for in situ measurements of the vertical distribution of magnetic susceptibility in soils as basis for mapping deposited dust, Environ. Technol., 25 (9), 1021-1029.
• Magiera, T. Strzyszcz, Z. Kapička, A. Petrovský, E. MAGPROX Team., 2006. Discimination of lithogenic and anthropogenic influences on topsoil magnetic susceptibility in Central Europe. Geoderma, 130, 299-311.
• Kapička, A. Hrouda, F. Petrovský, E. Poláček, J., 2006. Effect of plastic deformation in laboratory conditions on magnetic anisotropy of sedimentary rocks, High Pressure Research, 26 (4), 549-553.
• Knab, M. Hoffmann, V. Petrovský, E. Kapička, A. Jordanova, N. Appel, E. (2006). Surveying the anthropogenic impact of the Moldau river sediments and nearby soils using magnetic susceptibility. Environ. Geol., 49, 527-535.
• Kapička, A. Petrovský, E. Fialová, H. Podrázský, V. Dvořák, I., 2008. High resolution mapping of anthropogenic pollution in the Giant Mountains National Park using soil magnetometry, Studia geophys. geod., 52 (2), 271-284. 10.1007/s11200-008-0018-y.
• Kapička, A. Kodešová, R. Petrovský, E. Hůlka, Z. Grison, H. Kaška, M., 2011. Experimental study of fly-ash migration by using magnetic method, Studia geophys. geod., 55 (4), 683-696, 10.1007/s11200-010-0078-7
• Szuszkiewicz, M., Magiera, T., Kapička, A., Petrovský, E., Grison, H., Goluchowska, B., 2015. Magnetic characteristics of industrial dust from different sources of emission: A case study of Poland. J. Appl.Geophys., 116, 84-92.
• Jaksik, O., Kodesova, R., Kapicka, A., Klement, A., Fer, M., Nikodem, A. 2016:Using Magnetic Susceptibility Mapping for Assessing Soil Degradation Due to Water Erosion  Soil and Water Res., 11, 105-113.
• Grison, H., Petrovsky, E., Kapicka, A., Stejskalova, S. 2016: Magnetic and chemical parameters of andic soils and their relation to selected pedogenesis factors. CATENA., 139 , 179-190 .
• Jordanova, N., Petrovsky, E., Kapicka,A, Jordanova, D., Petrov, P., 2017. Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria. Envir. Monit. Assess., 189, Issue 4, Article Number: 158, DOI: 10.1007/s10661-017-5834-5
• Grison, H., Petrovsky, E., Kapicka,A, Hanzlikova, H., 2017. Detection of the pedogenic magnetic fraction in volcanic soils developed on basalts using frequency-dependent magnetic susceptibility: comparison of two instruments. GJI, 209, 654-660.
• Petrovský, E., Remeš, J., Kapička, A., Podrázský, V., Grison, H., Borůvka, L., 2018. Magnetic mapping of distribution of wood ash used for fertilization of forest soil. Sci. Tot. Environ., 626, 228-234.