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MAGNETIC PROPERTIES OF SOILS - A BASIS FOR EROSION STUDY AT AGRICULTURAL LAND IN SOUTHERN MORAVIA

Kapicka, Ales, Dlouha, Sarka, Grison, Hana, Jaksik, Ondrej, Petrovsky, Eduard, Kodesova, Radka

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bc3/s13.013View metrics

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  • Citations
  • CrossRef - Citation Indexes: 6
  • Scopus - Citation Indexes: 6
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  • Mendeley - Readers: 6

Publication details

Title
MAGNETIC PROPERTIES OF SOILS - A BASIS FOR EROSION STUDY AT AGRICULTURAL LAND IN SOUTHERN MORAVIA
Authors
Kapicka, Ales, Dlouha, Sarka, Grison, Hana, Jaksik, Ondrej, Petrovsky, Eduard, Kodesova, Radka
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on WATER RESOURCES. FOREST, MARINE AND OCEAN ECOSYSTEMS
Publisher
Stef92 Technology
Year
2013
Pages
577 - 584 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References38
  1. Govers G., Vandaele R., Desmet P.J.J., Poesen J. & Bunte K. The role of tillage in soil redistribution on hillslopes, European J. Soil Sci., 45, pp 469–478, 1994.

  2. Walling D.E. & He Q. Improved models for estimating soil erosion rates from Cs- 137 measurements, J. Environ. Qual., 28(2), pp 611–622, 1999.

  3. Mabit L., Benmansour M. & Walling D.E. Komparative advantages and limitations of the fallout radionuclides 137Cs, 210Pbex and 7Be for assessing soil erosion and sedimentation - a review, J. Environ. Radioact., 99, pp 1799–1807, 2008.

  4. Dearing J.A., Morton R.I., Price T.W. & Foster I.D.L. Tracing movements of topsoil by magnetic measurements: Two case studies, Phys. Earh Planet. Int er., 42, pp 93-104, 1986.

  5. Royall D. Use of mineral magnetic measurements to investigate soil erosion and sediment delivery in a small agricultural catchment in limestone terrain, Catena, 46, pp 15–34, 2001.

  6. Boardman J., Dearing J.A. & Foster I.D.L., 1990. Soil erosion studies, some assessments. In: Boardman J., Foster I.D.L. & Dearing J.A. (Eds. ), Soil Erosion and Agricultural Land. Wiley, Chichester, 1990, pp 659-672.

  7. Maher B. Characterization of soils by minerál magnetic measurements, Phys. Earth Planet. Inter., 42, pp 76–92, 1986.

  8. Thompson R. & Oldfield F. Environmental Magnetism, Allen & Unwin, London, U.K., 1986.

  9. Maher B. & Taylor R. Formation of ultrafine-grained magnetite in soils, Nature, 336, pp 368–370, 1988.

  10. De Jong E., Nestor P.A. & Pennock D.J. The use of magnetic susceptibility to measure long-term soil redistribution, Catena, 32, pp 23–35, 1998.

  11. Ericsson M.G. & Sandgren P. Mineral magnetic analyse of sediment cores recording recent soil erosion history in central Tanzania, Palaeogeogr. Palaeoclimatol. Palaeoecol., 152, pp 365–383, 1999.

  12. Royall D. Particle-size and analytical considerations in the mineral-magnetic interpretation of soil loss from cultivated landscapes, Catena, 57, pp 189-207, 2004.

  13. Landgraf C.E. & Royall D. Spatial patterns of surfaře soil magnetism and soil redistribution across a fallow field, Northern Alabama, Southeastern Geographer, 46, pp 1-22, 2006.

  14. Wang H., Huo Y., Zeng L., Wu X. & Cai Y. A 42-yr soil erosion record inferred from mineral magnetism of reservoir sediments in a small carbonaterock catchment, Guizhou Plateau, southwest China, J. Paleolimnol., 40, pp 897–921, 2008. GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  15. Jordanova D., Jordanova N., Atanasova A., Tsacheva T. & Petrov T. Soil tillage erosion estimated by using magnetism of soils - a case study from Bulg aria, Environ. Moni t. Assess., 183, pp 381-394, 2011.

  16. Chlupáč I., Brzobohatý R., Kovanda J. & Straník Z., Geologická minulost České republiky. Academia, Praha, Czech Republic, 2002.

  17. Zadorová T., Penízek V., Šefrna L., Roho šková M. & Bor ůvka L. Spatial delineation of organic carbon-rich Colluvial soils in Chernozem regions by Terrain analysis and fuzzy classification, Catena, 85, pp 22-3, 2011.

  18. Kapi čka A., Dlouh á Š., Grison H., Jakšík O., Kode šová R. & Petrovsk ý E. Magnetism of soils applied for estimation of erosion at an agricultural land , Geophys. Res. Abs., 15, EGU2013-4774, 2013.

  19. Jelenska M., Hasso-Agopsowitz A. & Kopcewicz B. Thermally induced transformation of magnetic minerals in soil based on rock magnetic study and Mossbauer analysis. Phys. Earth Planet. Inter., 179, pp 164-177, 2010.

  20. Govers G., Vandaele R., Desmet P.J.J., Poesen J. & Bunte K. The role of tillage in soil redistribution on hillslopes, European J. Soil Sci., 45, pp 469–478, 1994.

  21. Walling D.E. & He Q. Improved models for estimating soil erosion rates from Cs- 137 measurements, J. Environ. Qual., 28(2), pp 611–622, 1999.

  22. Mabit L., Benmansour M. & Walling D.E. Komparative advantages and limitations of the fallout radionuclides 137Cs, 210Pbex and 7Be for assessing soil erosion and sedimentation - a review, J. Environ. Radioact., 99, pp 1799–1807, 2008.

  23. Dearing J.A., Morton R.I., Price T.W. & Foster I.D.L. Tracing movements of topsoil by magnetic measurements: Two case studies, Phys. Earh Planet. Int er., 42, pp 93-104, 1986.

  24. Royall D. Use of mineral magnetic measurements to investigate soil erosion and sediment delivery in a small agricultural catchment in limestone terrain, Catena, 46, pp 15–34, 2001.

  25. Boardman J., Dearing J.A. & Foster I.D.L., 1990. Soil erosion studies, some assessments. In: Boardman J., Foster I.D.L. & Dearing J.A. (Eds. ), Soil Erosion and Agricultural Land. Wiley, Chichester, 1990, pp 659-672.

  26. Maher B. Characterization of soils by minerál magnetic measurements, Phys. Earth Planet. Inter., 42, pp 76–92, 1986.

  27. Thompson R. & Oldfield F. Environmental Magnetism, Allen & Unwin, London, U.K., 1986.

  28. Maher B. & Taylor R. Formation of ultrafine-grained magnetite in soils, Nature, 336, pp 368–370, 1988.

  29. De Jong E., Nestor P.A. & Pennock D.J. The use of magnetic susceptibility to measure long-term soil redistribution, Catena, 32, pp 23–35, 1998.

  30. Ericsson M.G. & Sandgren P. Mineral magnetic analyse of sediment cores recording recent soil erosion history in central Tanzania, Palaeogeogr. Palaeoclimatol. Palaeoecol., 152, pp 365–383, 1999.

  31. Royall D. Particle-size and analytical considerations in the mineral-magnetic interpretation of soil loss from cultivated landscapes, Catena, 57, pp 189-207, 2004.

  32. Landgraf C.E. & Royall D. Spatial patterns of surfaře soil magnetism and soil redistribution across a fallow field, Northern Alabama, Southeastern Geographer, 46, pp 1-22, 2006.

  33. Wang H., Huo Y., Zeng L., Wu X. & Cai Y. A 42-yr soil erosion record inferred from mineral magnetism of reservoir sediments in a small carbonaterock catchment, Guizhou Plateau, southwest China, J. Paleolimnol., 40, pp 897–921, 2008. GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  34. Jordanova D., Jordanova N., Atanasova A., Tsacheva T. & Petrov T. Soil tillage erosion estimated by using magnetism of soils - a case study from Bulg aria, Environ. Moni t. Assess., 183, pp 381-394, 2011.

  35. Chlupáč I., Brzobohatý R., Kovanda J. & Straník Z., Geologická minulost České republiky. Academia, Praha, Czech Republic, 2002.

  36. Zadorová T., Penízek V., Šefrna L., Roho šková M. & Bor ůvka L. Spatial delineation of organic carbon-rich Colluvial soils in Chernozem regions by Terrain analysis and fuzzy classification, Catena, 85, pp 22-3, 2011.

  37. Kapi čka A., Dlouh á Š., Grison H., Jakšík O., Kode šová R. & Petrovsk ý E. Magnetism of soils applied for estimation of erosion at an agricultural land , Geophys. Res. Abs., 15, EGU2013-4774, 2013.

  38. Jelenska M., Hasso-Agopsowitz A. & Kopcewicz B. Thermally induced transformation of magnetic minerals in soil based on rock magnetic study and Mossbauer analysis. Phys. Earth Planet. Inter., 179, pp 164-177, 2010.

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Number of times cited according to Crossref: 6

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