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Evaluating of soil sulfur forms changes under different fertilizing systems during long-term field experiments

Author

Listed:
  • M. Kulhánek

    (Department of Agro-Environmental Chemistry and Plant Nutrition, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences in Prague, Prague, Czech Republic)

  • J. Balík

    (Department of Agro-Environmental Chemistry and Plant Nutrition, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences in Prague, Prague, Czech Republic)

  • J. Černý

    (Department of Agro-Environmental Chemistry and Plant Nutrition, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences in Prague, Prague, Czech Republic)

  • O. Sedlář

    (Department of Agro-Environmental Chemistry and Plant Nutrition, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences in Prague, Prague, Czech Republic)

  • F. Vašák

    (Department of Agro-Environmental Chemistry and Plant Nutrition, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences in Prague, Prague, Czech Republic)

Abstract

The aim of this work was to evaluate the changes of different soil sulfur forms during long-term field experiments supplied with sewage sludge (SS), farmyard manure (FYM) or mineral fertilizers. The experiment was established at three different sites with the crop rotation of potatoes, wheat and barley. Fertilizing system was based on the same nitrogen dose per the whole crop rotation. Soil samples from the beginning of the experiment (1996) and at the end of each crop rotation were analysed after all three crops harvest. Similar tendencies of changes in water extractable (Sw), adsorbed (Sads), 1 mol/L HCl estimated (SHCL) sulfur and their sum of (∑S) related to the fertilizing systems were observed among all studied sites. A decreasing tendency of ∑S in soil was observed during the experiment (except for the year 2005). The biggest decrease was always visible compared to control treatment. Mineral fertilizers (S added with superphosphate) appeared to be the best source of SHCL. Application of SS increased the Sw content in soil samples after potatoes harvest, whereas a decreasing tendency among the following crops was visible. Contents of other S forms (Sw at control, FYM and mineral fertilizers included) were usually balanced during the crop rotation.

Suggested Citation

  • M. Kulhánek & J. Balík & J. Černý & O. Sedlář & F. Vašák, 2016. "Evaluating of soil sulfur forms changes under different fertilizing systems during long-term field experiments," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 62(9), pages 408-415.
  • Handle: RePEc:caa:jnlpse:v:62:y:2016:i:9:id:236-2016-pse
    DOI: 10.17221/236/2016-PSE
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    References listed on IDEAS

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    1. R.W. Neugschwandtner & P. Liebhard & H.-P. Kaul & H. Wagentristl, 2014. "Soil chemical properties as affected by tillage and crop rotation in a long-term field experiment," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 60(2), pages 57-62.
    2. J. Černý & J. Balík & M. Kulhánek & K. Čásová & V. Nedvěd, 2010. "Mineral and organic fertilization efficiency in long-term stationary experiments," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 56(1), pages 28-36.
    3. Filip VAŠÁK & Jindřich ČERNÝ & Šárka BURÁŇOVÁ & Martin KULHÁNEK & Jiří BALÍK, 2015. "Soil pH changes in long-term field experiments with different fertilizing systems," Soil and Water Research, Czech Academy of Agricultural Sciences, vol. 10(1), pages 19-23.
    4. S. Förster & G. Welp & H.W. Scherer, 2012. "Sulfur specification in bulk soil as influenced by long-term application of mineral and organic fertilizers," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 58(7), pages 316-321.
    5. J. Balík & M. Kulhánek & J. Černý & J. Száková & D. Pavlíková & P. Čermák, 2009. "Differences in soil sulfur fractions due to limitation of atmospheric deposition," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 55(8), pages 344-352.
    6. H.W. Scherer & G. Welp & S. Förster, 2012. "Sulfur fractions in particle-size separates as influenced by long-term application of mineral and organic fertilizers," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 58(5), pages 242-248.
    7. M. Kulhánek & J. Černý & J. Balík & V. Vaněk & O. Sedlář, 2011. "Influence of the nitrogen-sulfur fertilizing on the content of different sulfur fractions in soil," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 57(12), pages 553-558.
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    Cited by:

    1. Martin KULHÁNEK & Jindřich ČERNÝ & Jiří BALÍK & Ondřej SEDLÁŘ & Pavel SURAN, 2018. "Potential of Mehlich 3 method for extracting plant available sulfur in the Czech agricultural soils," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 64(9), pages 455-462.
    2. Jiří ZBÍRAL & Michaela SMATANOVÁ & Pavel NĚMEC, 2018. "Sulphur status in agricultural soils determined using the Mehlich 3 method," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 64(6), pages 255-259.

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