Plant Soil Environ., 2005, 51(8):368-375 | DOI: 10.17221/3612-PSE

Influence of gypsum treatment on extractability of nutrients from soils

J. Matula, M. Pechová
Research Institute of Crop Production, Prague-Ruzyně, Czech Republic

In an incubation experiment with 36 soils we tested the influence of application of 3.3 g of CaSO4.2 H2O per kg of soil on extractability of nutrients (P, K, Mg, Ca, Mn, B and S). After 134-day incubation of gypsum-treated soils the soils were extracted with water (1:5, w/v), 0.5M ammonium acetate with NH4F addition (pH 7) and by Mehlich 3 method. An ICP-technique was used for nutrient detection and colorimetry on a SKALAR analyser was employed to determine phosphates and sulphates. The most interesting results were measured in phosphorus. P concentration was markedly lower in the H2O extract after gypsum treatment, on average by 69% in ICP detection and by 58% in colorimetric detection of phosphates. A significant depression of P concentration was also measured in the acetate extract, but it was considerably lower (11% in ICP detection, 14% in colorimetry). On the contrary, in Mehlich 3 extraction the concentration after gypsum treatment was higher on average by 31% in ICP detection while colorimetry detection did not show any significant differences. The results indicate that it is necessary to identify the method of soil extraction including the method of analytical determination of the nutrient, when the nutrient status of soils is to be evaluated.

Keywords: gypsum treatment of soils; soil tests; phosphorus; potassium; magnesium; calcium; manganese; boron; sulphur

Published: August 31, 2005  Show citation

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Matula J, Pechová M. Influence of gypsum treatment on extractability of nutrients from soils. Plant Soil Environ. 2005;51(8):368-375. doi: 10.17221/3612-PSE.
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    References

    1. Allmars R.R., Kraft J.M., Pikul J.L., Jr. (1987): Lime and gypsum effects on pea-root pathogen inoculum and related factors in a wheat-peas rotation. Agronomy Journal, 79: 439-445. Go to original source...
    2. Eriksen J. (1994): Soil organic matter as a source of plantavailable sulphur. Norwegian Journal of Agricultural Science, Supplement, 15: 77-81.
    3. Eriksen J. (1997): Sulphur cycling in Danish agricultural soils: turnover in organic S fractions. Soil Biology and Biochemistry, 29: 1371-1377. Go to original source...
    4. Matula J. (1996): Determination of potassium, magnesium, phosphorus, manganese and cation exchange capacity for fertilizer recommendations used by Czech Union of Rapeseed Growers. Communication in Soil Science and Plant Analysis, 27: 1679-1691. Go to original source...
    5. Matula J. (1999a): Multinutrient soil tests and bioavailability of potassium, phosphorus, magnesium, manganese and sulphur from soils. Rostlinná Výroba, 45: 545-553.
    6. Matula J. (1999b): Use of multinutrient soil tests for sulphur determination. Communication in Soil Science and Plant Analysis, 30: 1733-1746. Go to original source...
    7. Matula J. (2004): The effect of chloride and sulphate application to soil on changes in nutrient content in barley shoot biomass at an early phase on growth. Plant, Soil and Environment, 50: 295-302. Go to original source...
    8. Matula J., Sychová M., Drmotová A. (2000): The effect of nitrogen fertilizers on pool of labile forms of sulphur and nitrogen in soil. Rostlinná Výroba, 46: 29-35.
    9. Sims J.R., Haby V.A. (1971): Simplified colorimetric determination of soil organic matter. Soil Science, 112: 137-141. Go to original source...
    10. Soil and Plant Analysis Council, Inc. SPAC (1999): Soil analysis, Handbook of reference methods. CRC Press, Boca Raton, London, New York, Washington, D.C.

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