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Tytuł artykułu

Analysis of Spatial Variability of Selected Soil Properties in the Hard Coal Post-Mining Area

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The result of geomechanical and hydrological degradation caused by the underground extraction of hard coal are the transformations of the environmentally managed terrains and high variability of soil properties occurring in these areas. The analysis of selected soil properties of spatial variability in the post-mining area conducted by means of the kriging technique was presented in the paper. The determined points of empirical semivariogram were described by means of mathematical functions and theoretical semivariograms were plotted. The conducted analysis allowed to plot the maps of variability isolines, which my provide a basis to delineate the boundaries of areas most susceptible to the hydrological degradation of soils. The obtained research results indicate that the applied kriging technique may prove to be a useful tool for determining spatial variability of soils in the areas of hard coal mining operations and allow to delineate the boundaries of the areas most susceptible to soil degradation.
Rocznik
Strony
185--193
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
  • Department of Land Reclamation and Environmental Development, University of Agriculture in Krakow, al. Mickiewicza 24/28, 30-059 Kraków, Poland
  • Department of Land Reclamation and Environmental Development, University of Agriculture in Krakow, al. Mickiewicza 24/28, 30-059 Kraków, Poland
autor
  • Department of Land Reclamation and Environmental Development, University of Agriculture in Krakow, al. Mickiewicza 24/28, 30-059 Kraków, Poland
Bibliografia
  • 1. Baver L., Gardner W., Gardner R.W. 1972. Soil Physics. 4 Ed-New York 1972. Wiley 8 Nlb 2,498.
  • 2. Brandyk T., Gnatowski T., Szatyłowicz J. 1996. Spatial variability of some physical properties of decomposed lowland peat soil. Proceedings of 10th International Peat Congress, 27 May-2 June, Bremen (ed. G.W. Luttig), vol. 2, 294–305.
  • 3. Hellwig Z. 1993. Elements of probability calculus and mathematical statistics [in Polish]. Wydawnictwo Naukowe PWN. Warszawa, pp. 313.
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  • 5. Kaszowska O. 2007. Wpływ podziemnej eksploatacji górniczej na powierzchnię terenu. (Impact of underground mining on surface of terrain) [in Polish]. Problemy Ekologii, vol. 11, nr 1, 52–57.
  • 6. Klatka S., Boroń K. 2008. Modelling spatial variability of soil texture in areas subject to mining degradation [in Polish]. Acta Scientiarum Polonorum, Formatio Circumiectus 7(4), 13–20.
  • 7. Klatka S., Malec M., Ryczek M., Boroń K., 2015. Wpływ działalności eksploatacyjnej kopalni węgla kamiennego „Ruch Borynia” na gospodarkę wodną wybranych gleb obszaru górniczego. (Influence of mine activity of the Coal Mine “Ruch Borynia” on water management of chosen soils on mining area) [in Polish]. Acta ScientiarumPolonorum, Formatio Circumiectus, vol. 14, nr 1, 115–123.
  • 8. Klatka S., Malec M., Ryczek M., Kruk E., Zając E. 2016. Ocena zdolności retencyjnych wybranych odpadów przemysłowych. (Evaluation of retention ability of chosen industrial wastes) [in Polish]. Acta Scientiarum Polonorum, Formatio Circumiectus15 (4), 53–60
  • 9. Klatka S., Zając E, Zarzycki J. 2017. Areal variability of the mineral soil cover in a reclaimed soda waste dumping site. Annals of Warsaw University of Life Sciences-SGGW Land Reclamation, Warsaw University of Life Sciences Press, vol. 49, nr 1, 15–27
  • 10. Kruk., E., Ryczek M., Klatka S., Malec M. 2018. Spatial Variabilty of Chosen Soil Properties on Mountainous Area on Example of Kasińczanka Stream Basin, Western Carpathians. J. Ecol. Eng. 2018; 19(3), 146–153
  • 11. L´opez-Granados F., Jurado-Exp´osito M., Atenciano S., Garc´ıa-Ferrer A., S´anchez de la Orden M., Garc´ıa-Torres L., 2002. Spatial variability of agricultural soil parameters in southern Spain. Plant and Soil 246, 97–105
  • 12. Mocek, A, Drzymała, S., Maszner, P. 1997. Genesis analysis and classification of soils) [in Polish]. Poznań. Wydawnictwo AR.
  • 13. Marx D. B, Thompson K. C. 1987. Practical aspect of agricultural Kriging. Arkansas Agricultural Experiment Station Bulletin, 903.1
  • 14. Oleksynowa K., Tokaj J., Jakubiec J. 1987. Guide to exercises in soil science and geology [in Polish]. AR w Krakowie
  • 15. Oliver M., Webster R. 1986. Semi-variograms for modelling the spatial pattern of landform and soil properties. Earth Surface processes and Landforms. 11, 75–92.
  • 16. Park S.J., Vlek P.L.G. 2002. Environmental correlation of three-dimensional soil spatial variability: a comparison of three adaptive techniques. Geoderma. Volume 109, Issues 1–2, 117–140
  • 17. Polskie Towarzystwo Gleboznawcze [PTG], 2011. Polish Soil Classification, Fifth Edition [in Polish] Rocz. Glebozn., LXII (3), 193.
  • 18. PN-R-04033 1998. Gleby i utwory mineralne. (Soil and mineral soil materials) [in Polish] Polski Komitet Normalizacyjny Warszawa
  • 19. Rosik-Dulewska Cz., Wrona A., Gronet R., 1999. Przekształcenia użytkowania gruntów na obszarach górniczych KWK „Knurów’’ i KWK „Szczygłowice”. (Changes in land use on mining areas of Knurów and Szczygłowice coal mines) [in Polish] Archiwum Ochrony Środowiska. Vol. 25. no 4, 89–117
  • 20. Sigua G. C., Hudnall W. H. 2008. Kriging analysis of soil properties – Implication to landscape management and productivity improvement. Journal of Soils and Sediments, 8, 193–202.
  • 21. Siuta, J. 2007. Ecological magnitude of the regulation of relation between water and air in soil [in Polish] Inżynieria Ekologiczna. 18, 19–22.
  • 22. Smith J.L., Halvorson J.J., Papendic R.I., 1994. Multiple variable indicator kriging: procedure for integrating soil quality indicators. SoilSci. Soc. Am. spec. publ. No. 35, 62–94
  • 23. Somorowski Cz. 1993. Contemporary problems of land reclamation [in Polish]. Wydawnictwo SGGW, Warszawa.
  • 24. Stach A. 1998. Spatial variability of properties of the ploughed layer on a lithologically non-homogeneous morainic slope [in Polish] Bibl. Fragm. Agron., 4A/98, 123–142.
  • 25. Statistica for Windows. 1984–2011. StatSoft, Inc., USA.
  • 26. Stein A, Staritsky. 1993. Spatanal. User’s Guide. Geographic Institute RUU. The Netherlands
  • 27. Strzyszcz Z. 1995. Geomechanical, hydrological and chemical transformations of the cover soil in the Katowice province [in Polish]. Zesz. Probl. PostępówNaukRolniczych. Z 418.
  • 28. Warrick A.W., Nielsen D.R. 1980: Spatial variability of soil physical properties in the field. In: Applications of soil physics D. Hillel (Ed.). Academic Press, New York, 319–344.
  • 29. Webster R., Oliver M.A. 1990: Statistical methods in soil and land resource survey. Oxford University Press, Great Britain.
  • 30. Wei J.B., Xiao D.N., Zhang X.Y., Li X.Z., Li X.Y. 2006. Spatial Variability of Soil Organic Carbon in Relation to Environmental Factors of a Typical Small Watershed in the Black Soil Region, Northeast China. Environ. Monitor Assess. 121, 597–613.
  • 31. Zawadzki, S. 1999. Soil science [in Polish]. PWRiL Warszawa.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-31b23d33-359c-4a29-b2aa-10b152d55d0b
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