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Publikace

Monographs and Chapters in Monographs


  1. Tarling, D.H. & Hrouda, F. 1993. The magnetic anisotropy of rocks. Chapman & Hall, London 1993, 217 pp.
  2. Hrouda, F., Janák, J. & Štelcl, J., 1970. Ueber die Verwendbarkeit der Anisotropie der magnetischen Suszeptibilitaet zur Bestimmung der Magnetitorientierung, 253-262.  Experimental and natural rock deformation, P. Paulitsch  (editor), Springer Verlag Berlin 1970.
  3. Hrouda, F., Rejl, L. & Gregerová, M., 1974. Locality No. 3 - Blansko, Locality No. 4 - Lhota Rapotina, 12-18. Excursion profile through granodiorites of the Brno massif, J. Štelcl (editor), UJEP Brno 1974.
  4. Hrouda, F., 1975. Archaeomagnetic age determination of archaeological  materials from oxidation burned soil (in Czech), 219-221.  Pffafenschlag, zaniklá středověká ves u Slavonic, V.  Nekuda (editor). Blok              Brno 1975.
  5. Hrouda, F., 1979. Magnetic anisotropy and plastic deformation in  metamorphic rocks, 271-275. Geodynamic Investigations  in Czechoslovakia, J. Vaněk, V. Babuška and J.Plančár  (eds.), Veda Bratislava 1979.
  6. Štelcl, J., Gregerová, M., Štelcl, J. Jr., Hájek, J., Hrouda,  F., Janák, F., Ondra, P., 1986. Granitoids of the Brno massif (in Czech), 30-86. Brněnský masív, J. Štelcl a J. Weiss (eds.).  UJEP Brno 1986.
  7. Gregerová, M., Štelcl, J. Jr., Hájek, J., Hrouda, F., Janák,  F., Ondra, P., 1986. Metabasite Zone (in Czech), 87-140. Brněnský  masív, J. Štelcl a J. Weiss (eds.). UJEP Brno 1986.
  8. Gregerová, M., Staněk, J., Hrouda, F., Janák, F., Ondra, P., 1986. Dyke rocks (in Czech), 141-166. Brněnský masív, J. Štelcl a J.  Weiss (eds.). UJEP Brno 1986.
  9. Štelcl, J., Musilová, L., Štelcl, J. Jr., Hájek, J., Hrouda,  F., Janák, F., Ondra, P., 1986. Crystalline mantle of the Brno Massif (in Czech), 167-189. Brněnský masív, J. Štelcl a J. Weiss  (eds.). UJEP Brno 1986.
  10. Hrouda, F., 1993. Magnetic fabric relationship between  crystalline and Variscan sedimentary complexes in  Eastern Bohemian Massif, 227-240. Rhenohercynian and  Subvariscan Fold Belts, R.A. Gayer, R.O. Greiling and  A.K. Vogel (eds.). Vieweg & Sohn, Braunschweig/Wiesbaden 1993.
  11. Hrouda, F., 1994. Mathematical modelling of the behaviour of passive  fabric elements (and corresponding AMS) in the  transpression zone, 381-392. Textures of geological  materials, H.J. Bunge, S. Siegesmund, W.Skrotzki, K.  Weber (eds.), DGM Verlag Oberursel 1994.
  12. Jelínek, V., Hrouda, F. & Tarling, D.H., 1994. New parameters for  characterization of fabrics of linear and planar  elements using orientation tensor, 393-399. Textures of  Geological Materials, H.J. Bunge, S. Siegesmund, W.  Skrotzki, K. Weber (eds.) DGM Verlag, Oberursel 1994.
  13. Hrouda, F. and Ježek,, 1999. J. Magnetic anisotropy indications of  deformations associated with diagenesis.  Palaeomagnetism and Diagenesis in Sediments, D.H.  Tarling & P. Turner (eds.), Geological Society, London,  Special Publications, 151, 1999, 127-137.
  14. Hrouda, F., 2004. Problems in interpreting AMS parameters in diamagnetic rocks, 49-59. Magnetic Fabric: Methods and Applications, F. Martín-Hernández, C.M. Lüneburg, C. Aubourg & M. Jackson (eds), Geological Society, London, Special Publications, 238. 
  15. Pokorný, J., Suza, P. and Hrouda, F., 2004. Anisotropy of magnetic susceptibility of rocks measured in variable weak magnetic fields using the KLY-4S Kappabridge, 69-76. Magnetic Fabric: Methods and Applications, F. Martín-Hernández, C.M. Lüneburg, C. Aubourg & M. Jackson (eds), Geological Society, London, Special Publications, 238. 
  16. Ježek, J. and Hrouda, F., 2004. Determination of the orientation of magnetic minerals from the anisotropy of magnetic susceptibility, 9-20. Magnetic Fabric: Methods and Applications, F. Martín-Hernández, C.M. Lüneburg, C. Aubourg & M. Jackson (eds), Geological Society, London, Special Publications, 238. 
  17. Chadima, M., Hansen, A., Hirt, A.M., Hrouda, F. and Siemes, H., 2004. Phyllosilicate preferred orientation as a control of magnetic fabric: evidence from neutron texture goniometry and low and high-field magnetic anisotropy (SE Rhenohercynian Zone of Bohemian Massif). In: F. Martín-Hernández, C.M. Lüneburg, C. Aubourg & M. Jackson (eds). Magnetic Fabric: Methods and Applications. Geological Society, London, Special Publications, 238, 361-380.
  18. Hrouda, F., 2007. Magnetic susceptibility, anisotropy. In: D. Gubbins & E. Herrero-Bervera (eds.), Encyclopedia of Geomagnetism and Paleomagnetism, Springer, 546-560.

Scientific Journal Publications


  1. Hrouda, F., 1964. On the use of palaeomagnetism in speleology (in Czech). Kras v ČSSR, 13-17.
  2. Hrouda, F., Janák, F. & Štelcl, J., 1967. On the study of magnetic susceptibility of some granodiorites of the Brno massif (In Czech). Zpráv. geol. výzk.,  44-45.
  3. Hrouda, F., Janák, J. & Štelcl, J., 1968. Zur petrophysikalischen  Charakteristik einiger Granodiorite des Brünner  Massivs. Gerl. Beitr. Geophys., 77, 473-486.
  4. Hrouda, F., 1969. Anisotropy of magnetic susceptibility of rocks and its significance for petrotectonics (in Czech). Čas. miner. geol., 14, 119-124.
  5. Hrouda, F., 1970. The relation between the fabric and anisotropy of  magnetic susceptibility for some West Moravian gneisses. Věst. Ústř. Úst. geol., 45, 147-156.
  6. Hrouda, F., 1971. The magnetite fabric of some massive and mylonitized granodiorires of the most northern part of the Brno massif. Čas. Miner. Geol., 16, 37-45.
  7. Hrouda F., Janák F., Rejl L. & Weiss J., 1971. The use of magnetic  susceptibility anisotropy for estimating the  ferromagnetic mineral fabrics of metamorphic rocks.  Geol. Rdsch., 60, 1124-1142.
  8. Hrouda, F. & Janák, F., 1971. A study of the hematite fabric of some  red sediments on the basis of their magnetic  susceptibility anisotropy. Sediment. Geol., 6, 187-199.
  9. Hrouda, F., Chlupáčová, M. & Rejl, L., 1971. The mimetic fabric of magnetite in some foliated granodiorites, as indicated by magnetic anisotropy. Earth Sci. Planet. Inter., 11, 381-384.
  10. Hrouda, F., Chlupáčová, M. & Rejl, L., 1972. Changes in the magnetite content and magnetite fabric during  fenitization, as investigated by petromagnetic methods. N. Jb. Miner. Abh., 117, 61-72.
  11. Dvořák, J. & Hrouda, F., 1972. The origin of tectonic structures in weakly metamorphosed sediments, as studied by magnetic anisotropy. N. Jb. Geol. Palaeontol. Mh., Jg. 1972, 703-712.
  12. Hrouda, F., 1972. On the use of magnetic anisotropy in geology and petrology of sedimentary rocks (in Czech). Geol. průzk., 14, 71-72.
  13. Hrouda, F., 1973. A determination of the symmetry of the ferromagnetic mineral fabric in rocks on the basis of the magnetic susceptibility anisotropy measurements.  Gerl. Beitr. Geophys., 82, 390-396.
  14. Hrouda, F. & Janák, F., 1973. The use of magnetic anisotropy in the study of the current directions in sediments and lavas. Proc. X Congress of CGBA, sec. 8 geophysics, 28-34.
  15. Hrouda, F. & Rejl, L., 1973. Investigation of the tectonics of the Brno massif based on magnetometric survey (In Czech). Věst. Ústř. Úst. Geol., 48, 1-9.
  16. Štelcl, J., Schmidt, J. & Hrouda, F., 1974. Fabric study problems of the Brno massif. Sbor. geol. Věd, řada UG, 26, 177-184.
  17. Chlupáčová, M., Hrouda, F., Janák, F. & Rejl, L., 1975. The fabric, genesis, and relative-age relationship of the granitic rocks of the Čistá - Jesenice massif, as studied by magnetic anisotropy. Gerl. Beitr. Geophys., 84, 487-500.
  18. Dvořák, J. & Hrouda, F., 1975. The reflection of the deeper  structure of the Artmanov - Osoblaha block (Nízký Jeseník Mountains, Czechoslovakia) in magnetic  anisotropy and deformation history of overlying Palaeozoic sediments. Věst. Ústř. Úst. geol., 50, 285-296.
  19. Hrouda, F., 1975. Magnetic anisotropy and deformation of rocks (in Czech). Sbor.  6. celost. konf. geofyziků, Plzeň, 363-372.
  20. Hrouda, F. & Janák, F., 1976. The changes in shape of the magnetic  susceptibility ellipsoid during progressive metamorphism and deformation. Tectonophysics, 34, 135-148.
  21. Hrouda, F., 1976. The origin of cleavage in the light of magnetic anisotropy investigations. Phys. Earth Planet. Inter., 13, 132-142.
  22. Hrouda, F., 1976. A model for the orientation process of  ferromagnetic minerals in slates. Earth Planet. Sci.  Lett., 33, 107-110.
  23. Hrouda, F., 1978. The magnetic fabric in some folds. Phys. Earth  Planet. Inter., 17, 89-97.
  24. Štelcl, J., Hrouda, F., Janák, F.,1978. Petrophysics in geological sciences (in Czech). Scripta Fac. Sci.Natur. UJEP Brunensis,  Geologia 2, 67-76.
  25. Blížkovský, M., Hrouda, F., Kadlec, E. & Pícha, B., 1978.  Investigation of chromite deposits by geophysical  methods. Sbor. Inter. geophys. symp., Varna 1978, 447-459.
  26. Hrouda, F., Janák, F. & Rejl, L., 1978. Magnetic anisotropy and ductile deformation of rocks in zones of progressive regional metamorphism. Gerl. Beitr. Geophys., 87, 126-134.
  27. Hrouda, F., 1979. The strain interpretation of the magnetic anisotropy in rocks of the Nízký Jeseník Mountains  (Czechoslovakia). Sbor. geol. Věd, řada UG, 16, 27-62.
  28. Hrouda, F., 1979. Petromagnetic determination od palaeocurrents in sediments of the Hradec-Kyjovice Formation of the Nízký Jeseník Mts. (in Czech). Geol.  průzk., 11, 324-326.
  29. Hrouda, F., 1980. Development of ductile deformation in rocks of the Nízký Jeseník Mts., investigated through magnetic anisotropy (in Czech). Geol. průzk., 8, 232-234.
  30. Hrouda, F. & Chlupáčová, M., 1980. The magnetic fabric in the Nasavrky massif. Čas. Miner. Geol., 25, 17-27.
  31. Hrouda, F. & Chlupáčová, M., 1980. Magnetic anisotropy of massive ores and its use in economic geology (in Czech). Sbor. ref. 7.  celost. konf. geol. Gottwaldov, Sekce S3, 57-59.
  32. Hrouda, F., 1980. Magnetocrystalline anisotropy of rocks and massive ores: a mathematical model study and its fabric implications. J. Struct. Geol., 2, 459-462.
  33. Hrouda, F., 1980. Magnetic anisotropy in the NE part of the Bohemian massif. Proc. Int. Conf. "Bohemian massif", Prague 1980.
  34. Hrouda, F., 1981. On the superposition of regional slaty cleavage on folded strata and its reflection in magnetic  anisotropy. Čas. miner. geol., 26, 341-348.
  35. Hrouda, F., 1981. On the mechanism of fold formation in the Nízký Jeseník (in Czech).  Mts. Věst.  Ústř. Úst. Geol., 56, 271-278.
  36. Hrouda, F., 1982. Magnetic anisotropy of rocks and its application in geology and geophysics. Geophys. Surv., 5,  37-82.
  37. Hrouda, F., 1982. Magnetic fabric changes during progressive metamorphism and deformation of flysch sediments.  Mitt. Geol. Inst. ETH and Univ. Zurich, Neue Folge  239a, 136-139.
  38. Hrouda, F. & Rejl, L., 1982. The small-scale magnetic susceptibility  distribution in some plutonic rocks and its geological  implications. Věst. Ústř. Úst. Geol., 57, 65-70.
  39. Hrouda, F., Chlupáčová, M. & Konupčík, M.,  1982. Preferred orientation of the Zlaté Hory pyrrhotites by mineral lattice investigated by means of magnegtic anisotropy (in Czech). Sbor.  ref. KRB RRGPJ Loučná n/D, 97-104.
  40. Hrouda, F., 1983. Fabric implications of magnetic anisotropy  measurements of rocks of the Malé Karpaty (Little  Carpathians) Mts. (SW Slovakia). Annuaire Inst. Geol.  Geophys., Bucharest, 63, 57-61.
  41. Hrouda, F., Stephenson, A. & Woltär, L., 1983. On the standardization of measurements of the anisotropy of magnetic susceptibility. Phys. Earth Planet. Inter., 32, 203-208.
  42. Hrouda, F., Kahan, S. & Putiš, M., 1983. The magnetic and mesoscopic  fabrics of the crystalline complex of the Strážovské vrchy Mts. and their tectonic implications. Geologica Carpathica, 34, 717-731.
  43. Hrouda, F. & Hanák, J., 1984. Magnetic anisotropy of rocks of the Černá  Hora and Branisko Mts. (in Czech). In: A. Kapička (editor), Fyzikální  vlastnosti hornin a jejich využití v geofyzice  a geologii. ČSMG Praha 1984.
  44. Hrouda, F., Siemes, H., Herres, N. & Hennig-Michaeli, C., 1985. The relation between the magnetic anisotropy and the c-axis fabric in a massive hematite ore. Jour. Geophys., 56, 174-182.
  45. Hrouda, F., 1985. The magnetic fabric in the Brno massif. Sbor.  geol. Věd, řada UG, 19, 89-112.
  46. Hrouda, F. & Stráník, Z., 1985. The magnetic fabric of the Ždánice thrust sheet of the Flysch Belt of the West Carpathians: sedimentological and tectonic  implications. Sedim. Geol., 45, 125-145.
  47. Hrouda, F., 1986. The magnetic fabric of sedimentary rocks of the Malé Karpaty Mts. and its tectonic implications.  Sbor. geol. Věd, řada UG, 20, 165-167.
  48. Hrouda, F. , 1986. The effect of quartz on the magnetic anisotropy of quartzite. Studia geophys. geod., 30, 39-45.
  49. Hrouda, F., 1987 Mathematical model relationship between the  paramagnetic anisotropy and strain in slates. Tectonophysics, 142, 323-327.
  50. Hrouda, F. & Chlupáčová, M., 1988. Magnetic susceptibility of granites and its petrological significance. Sbor. ref. Výzkum hlubinné  stavby Československa, GFÚ SAV Bratislava a Geofyzika  Brno,  269-278.
  51. Ellwood, B.B., Hrouda, F. & Wagner, J.-J., 1988. Symposia on magnetic fabrics: introductory comments. Phys. Earth  Planet. Inter., 51, 249-252.
  52. Hrouda, F., Jacko, S. & Hanák, J., 1988. Parallel magnetic fabrics  in metamorphic, granitoid and sedimentary rocks of  the Branisko and Čierna Hora Mountains (E Slovakia)  and their tectonometamorphic control. Phys. Earth  Planet. Inter., 51, 271-289.
  53. Ellwood, B.B., Chrzanowski, T.H., Hrouda, F., Long, G.J. &  Buhl, M.L., 1988.Siderite formation in anoxic deep-sea  sediments: A synergic bacterially controlled process  with important implications in paleomagnetism. Geology, 16, 980-982.
  54. Hrouda, F., 1988. Mathematical model relationship between the  paramagnetic anisotropy and strain – a reply. Tectonophysics, 156, 315.
  55. Hrouda, F. and Lanza, R., 1989. Magnetic anisotropy in the Biella  and Traversella stocks (Periadriatic Line): implications for the emplacement mode. Phys. Earth  Planet. Inter., 56, 337-348.
  56. Henry, B. & Hrouda, F., 1989. Analyse de la déformation finie des  roches par détermination de leur anisotropie de  susceptibilité magnétique. C.R. Acad. Sci. Paris, s.  II, 308, 731-737.
  57. Hrouda, F. and Schulmann, K., 1990. Conversion of magnetic  susceptibility tensor into orientation tensor in some  rocks. Phys. Earth Planet. Inter., 63, 71-77.
  58. Hrouda, F. & Jelínek, V., 1990. Resolution of ferromagnetic and  paramagnetic anisotropies, using combined low-field  and high-field measurements. Geophys. Jour., 103, 75-84.
  59. Hrouda, F., 1990. Variscan tectonic overprinting the magnetic fabric  in the sedimentary and crystalline nappes in the NE  Bohemian Massif. Tectonics, 12, 507-518.
  60. Hrouda, F. & Hanák, J., 1990. Magnetic fabric of sedimentary  formations of the Strážovské vrchy Mts., sedimentological and tectonic implications. Sbor. geol. Věd, řada UG, 24, 91-105.
  61. Hrouda, F. & Bartošková, L., 1990. On the detection of weak bedding  parallel strain by magnetic anisotropy: a mathematical  model study. Studia Geophys. Geod., 34, 327-341.
  62. Hrouda, F., 1991. Models of magnetic anisotropy variation in sedimentary sheets. Tectonophysics, 186,  203-210.
  63. Hrouda, F. & Kahan, Š., 1991. The magnetic fabric relationship  between sedimentary and basement nappes in the High Tatra Mts. (N Slovakia). J. Struct. Geol., 13, 431-442.
  64. Hrouda, F., 1992. Separation of a component of tectonic deformation from a complex magnetic fabric. Jour. Struct. Geol., 14, 65-71.
  65. Hrouda, F., 1993. Theoretical models of magnetic anisotropy to strain relationship revisited. Phys. Earth Planet. Inter., 77, 237-249.
  66. Hrouda, F., Pros, Z. & Wohlgemuth, J., 1993.Development of magnetic and elastic anisotropies in slates during progressive  deformation. Phys. Earth Planet. Inter., 77, 251-265.
  67. Hrouda, F. & Potfaj, M., 1993. Deformation of sediments in the  post-orogenic Intra-Carpathian Paleogene Basin as indicated by magnetic anisotropy. Tectonophysics,  224, 425-434.
  68. Hrouda, F. & Potfaj, M., 1993. Magnetic anisotropy as an indicator  of the weak ductile deformation of  the Intracarpathian  Palaeogene and the Magura Flysch (in Czech). Záp.  Karpaty, geol., 17, 121-134.
  69. Hrouda, F., 1994. A technique for the measurement of thermal changes of magnetic susceptibility of weakly magnetic rocks by  the CS-2 apparatus and KLY-2 Kappabridge. Geophys. J.  Int., 118, 604-612.
  70. Hrouda, F., Melka, R. & Schulmann, K., 1994. Periodical changes in fabric intensity during simple shear deformation and its implications for magnetic susceptibility anisotropy of sedimentary and volcanic rocks. Acta  Univ. Carol., Geologica, 38, 37-56.
  71. Friedrich, D., Hrouda, F., Chlupáčová, M., 1995. Relationship between paramagnetic and ferrimagnetic anisotropies in  selected specimens of the KTB pilot borehole and its vicinity (German part of the Bohemian massif). Sci. Drilling, 5, 3-15.
  72. Hrouda, F. & Přichystal, A. , 1995. Magnetic fabric relationship  between Palaeozoic volcanic and sedimentary rocks in  the Nízký Jeseník Mts. (NE Moravia). J. Czech Geol.  Soc. 40, 91-102.
  73. Hrouda, F., Chlupáčová, M. & Friedrich, D., 1996. Temperature  variations of magnetic susceptibility in rocks of the  KTB pilot borehole and its vicinity (German part of  the Bohemian Massif)  and their geological and  geophysical implications. Jour. Czech Geol. Soc.  41/3-4, 176-182.
  74. Hrouda, F. and Henry, B., 1996. Mathematical modeling of factors affecting the regression line method for separation of  ferromagnetic AMS from total rock AMS. Acta Univ.Carol., Geologica, 40, 3-12.
  75. Hrouda, F., Jelínek, V. and Zapletal, K., 1997. Refined technique for susceptibility resolution into ferromagnetic and  paramagnetic components based on susceptibility  temperature-variation measurement. Geophys. J. Int., 129, 715-719.
  76. Hrouda, F., Schulmann, K., Suppes, M., Ullemayer, K.,  de Wall, H., Weber, K., 1997. Quantitative relationship between low-field AMS and phyllosilicate fabric:  a review. Phys. Chem. Earth, 22, 153-156.
  77. Parry, M., Štípská, P., Schulmann, K., Hrouda, F., Ježek, J.  and Kröner, A., 1997. Tonalite sill emplacement at an oblique plate boundary: northeastern margin of the Bohemian  Massif. Tectonophysics, 280, 61-81.
  78. 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. Rev. High Pressure Sci. Technol., 7, 69-71.
  79. Hrouda, F. and Ježek, J., 1999. Theoretical models for the relationship between magnetic anisotropy and strain: effect of triaxial magnetic grains. Tectonophysics, 301, 183-190.
  80. Hrouda, F., Hanák, J. and Terzijski, I., 1999. Pore fabrics of ceramic models investigated by magnetic anisotropy.  Phys. Chem. Earth (A), 24, 607-610.
  81. Hrouda, F., Táborská, Š., Schulmann, K., Ježek, J. and Dolejš, D., 1999. Magnetic fabric and rheology of  co-mingled magmas in the Nasavrky Plutonic Complex (E Bohemia): implications for intrusive strain regime and emplacement mechanism. Tectonophysics, 307, 93-111.
  82. Hrouda, F., Krejčí, O. and Otava, J., 2000. Magnetic fabric in folds of the Eastern Rheno-Hercynian Zone. Phys. Chem. Earth (A), 25, 505-510.
  83. Hrouda, F., Henry, B. and Borradaile, G., 2000. Limitations of tensor subtraction in isolating diamagnetic fabrics by magnetic anisotropy. Tectonophysics, 322, 303-310.
  84. Hrouda, F., Hanák, J. and Terzijski, I., 2000. The magnetic and pore fabrics of extruded and pressed ceramic models. Geophys. J. Int., 142, 941-947.
  85. Ježek, J. and Hrouda, F., 2000. The Relationship Between the Lisle Orientation Tensor and the Susceptibility tensor. Phys. Chem. Earth (A), 25, 2000, 469-474.
  86. Hrouda, F. and Ullemayer, K., 2001. Quantitative correlation of biotite lattice preferred orientations and magnetic fabrics in granulites from the Southern Bohemian Massif. Z. dt. Geol. Ges., 152, 547-561.
  87. Hrouda, F., Plašienka, D. and Gregorová, D., 2002. Assumed Neogene deformation in the Central West Carpathians inferred from magnetic anisotropy investigations. EGS Stephan Mueller Publication Series, vol. 1, 195-211.
  88. Hrouda, F., 2002. The use of the anisotropy of magnetic remanence in the resolution of the anisotropy of magnetic susceptibility into its ferromagnetic and paramagnetic components. Tectonophysics, 347, 269-281.
  89. Hrouda, F., Chlupáčová, M. and Novák, J.K., 2002. Variations in magnetic anisotropy and opaque mineralogy along a kilometer deep profile within a vertical dyke of the syenogranite porphyry at Cínovec (Czech Republic). J. Volcanol. Geotherm. Res., 113, 37-47.
  90. Hrouda, F., 2002. Low-field variation of magnetic susceptibility and its effect on the anisotropy of magnetic susceptibility of rocks. Geophys. J. Int., 150, 715-723.
  91. Hrouda, F., Putiš, M. and Madarás, J., 2002. The Alpine overprints of the magnetic fabrics in the basement and cover rocks of the Veporic Unit (Western Carpathians, Slovakia). Tectonophysics 359, 271-288.
  92. Ježek, J. and Hrouda, F., 2002. Software for modeling the magnetic anisotropy of strained rocks. Computers & Geosciences 28, 1061-1068.
  93. Ježek, J. and Hrouda, F., 2002. A technique for numerical modeling of magnetic anisotropy to strain relationship. Phys. Chem. Earth 27, 1247-1252.
  94. Gregorová, D., Hrouda, F. and Kohút, M., 2003. Magnetic susceptibility and geochemistry of Variscan West Carpathian granites: implications for tectonic setting. Phys. Chem. Earth 28, 729-734.
  95. Hrouda, F., Műller, P. and Hanák, J., 2003. Repeated progressive heating in susceptibility vs. temperature investigation: a new palaeotemperature indicator?   Phys. Chem. Earth 28, 653-657.
  96. Hrouda, F., 2003. Indices for numerical characterization of the alteration processes of magnetic minerals taking place during investigation of temperature variation of magnetic susceptibility. Stud. Geophys. Geod., 47, 847-861.
  97. Hrouda, F., 2004. Magnetická anizotropie hornin a její využití ve strukturní geologii. Čs. čas. fyz. 54, 236-239.
  98. Hrouda, F., Chlupáčová, M., Schulmann, K., Šmíd, J., Závada, P., 2005. On the effect of lava viscosity on the magnetic fabric intensity in alkaline volcanic rocks. Studia Geophys. Geod., 49, 191-212.
  99. Žák, J., Schulmann, K. and Hrouda, F., 2005. Multiple magmatic fabrics in the Sázava pluton (Bohemian Massif, Czech Republic): a result of superposition of wrench-dominated regional transpression on final emplacement. J. Struct. Geol., 27,  805-822.
  100. Hrouda, F., Chlupáčová, M. and Mrázová, Š., 2006. Low-field variation of magnetic susceptibility as a tool f      for magnetic mineralogy of rocks. Phys. Earth Sci. Inter., 154, 323-336.
  101. Kratinová, Z., Závada, P., Hrouda, F. and Schulmann, K., 2006. Non-scaled analoque modelling of AMS development during viscous flow: A simulation on diapir-like structures. Tectonophysics, 418, 51-61.
  102. Chadima, M., Hrouda F. and Melichar, R., 2006. Magnetic fabric study of the SE Rhenohercynian Zone (Bohemian Massif): Implications for dynamics of the Paleozoic accretionary wedge. Tectonophysics, 418, 93-109.
  103. Hrouda, F., Chlupáčová, M. and Pokorný, J., 2006. Low-field variation of magnetic susceptibility measured by the KLY-4S Kappabridge and KLF-4A Magnetic Susceptibility Meter: Accuracy and interpretational programme. Stud. Geophys. Geod., 50, 283-298.
  104. Kapička, A., Hrouda, F., Petrovský, E. and Poláček, J., 2006. Effect of plastic deformation in laboratory conditions on magnetic anisotropy of sedimentary rocks. High Pressure Research, 26, 549-553.
  105. Hrouda, F., 2007. Anisotropy of magnetic susceptibility of rocks in the Rayleigh Law region: modelling errors arising from linear fit to non-linear data. Studia Geophys. Geod., 51, 423-438.
  106. Ježek, J. and Hrouda, F., 2007. SUSIE: A program for inverse strain estimation from magnetic susceptibility. Computers & Geosciences, 33, 749-759.
  107. Ježek, J. and Hrouda, F., 2007. A program for magnetic susceptibility–equivalent pore conversion, Geochem. Geophys. Geosyst., 8, Q10013, doi:10.1029/2007GC001709.
  108. Stráník, Z., Hrouda, F., Otava, J., Gilíková, H. and Švábenická, L., 2007. The Upper Oligocene-Lower Miocene Krosno lithofacies in the Carpathian Flysch Belt (Czech Republic): sedimentology, provenance and magnetic fabrics. Geologica Carpathica, 58, 321-332.
  109. Hasalová, P., Schulmann, K., Lexa, O., Štípská, P., Hrouda, F., Ulrich, S., Haloda, J. and Týcová, P., 2008. Origin of migmatites by deformation-enhanced melt infiltration of orthogneiss: a new model based on quantitative microstructural analysis. J. metamorphic Geol., 26, 29-53.
  110. Hrouda, F., 2009. Determination of field-independent and field-dependent components of anisotropy of susceptibility through standard AMS measurements in variable low fields I: Theory. Tectonophysics, 466, 114-122.
  111. Hrouda, F., Krejčí, O., Potfaj, M. and Stráník, Z., 2009. Magnetic fabric and weak deformation in sandstones of accretionary prisms of the Flysch and Klippen Belts of the Western Carpathians: Mostly offscraúping indicated. Tectonophysics, 479, 254-270.
  112. Hrouda, F., Faryad, S.W., Chlupáčová, M., Jeřábek, P. and Kratinová, Z., 2009. Determination of field-independent and field-dependent components of anisotropy of susceptibility through standard AMS measurements in variable low fields II: An example from the ultramafic body and host granulitic rocks at Bory in the Moldanubian Zone of Western Moravia, Czech republic. Tectonophysics, 466, 123-134.
  113. Hrouda, F., Faryad, S.W., Jeřábek, P., Chlupáčová, M. and Vitouš, P., 2009. Primary magnetic fabric in an ultramafic body (Moldanubian Zone, European Variscides) survives exhumation-related granulite-amphibolite facies metamorphism. Lithos (2008), 111, 95-111.
  114. Žák, J., Hrouda, F., Holub, F.V., 2010. Plane-confined magnetic lineations in mingled mafic and felsic magmas, the Sázava pluton, Bohemian Massif. Jour. Volcanol. Geotherm.  Res., 190.  312–324.
  115. Procházka, V., Chlupáčová, M., Nižňanský, D., Hrouda, F., Uher, P. and Rajlich, P., 2010. Magnetomineralogy of the cordierite gneiss from the magnetic anomaly at Humpolec, Bohemian Moldanubicum (Czech Republic). Studia Geophys. Geod., 54, 95-120.
  116. Kratinová, Z., Ježek, J., Schulmann, K., Hrouda, K., Shail, R.K. and Lexa, O., 2010. Noncoaxial K-feldspar and AMS subfabrics in the Land's End granite, Cornwall: Evidence  of magmatic fabric decoupling during late deformation and matrix crystallization. Jour. Geophys. Res. 115, B09104, doi:10.1029/2009JB006714, 2010.
  117. Hrouda. F., 2010. Modelling Relationship Between Bulk Susceptibility and AMS in
  118. Rocks Consisting of Two Magnetic Fractions Represented by Ferromagnetic and      Paramagnetic Minerals – Implications for Understanding Magnetic Fabrics in Deformed Rocks. Jour. Geol. Soc. India, 75, 254-266.

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