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Long-time effect of hard coal ash on the content of some elements in soil

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of the study was to determine the long-time effect of meliorating doses of hard coal ash (0, 100, 200, 400, 600 and 800 t ha-1) on the content of some elements in soil with the application of different organic substances: manure, straw and bark. Nineteen years after the application of ash there was still an increase in the total content of all elements in soil. Its magnitude depended on soil horizon and it was highest in the humus horizon. The increase in the content of nutrients was, in general, proportional to the applied doses of ash. In the surface layer of soil, the increase was particularly high for sodium and subsequently for calcium, magnesium, sulphur, potassium and phosphorus, arranged in the order of decreasing values. The content of elements in deeper soil layers was significantly lower than in the 0–25 cm zone. A gradual reduction in the content, together with the increase in depth, was recorded only for magnesium and sulphur. The lowest concentration of phosphorus and calcium was detected in the 51–75 cm layer, while in the case of potassium it was in the 26–50 cm zone. The substances introduced into the soil in order to reduce the impact of ash generated by hard coal combustion did not exert any significant impact on the content of elements 19 years following their application.
Słowa kluczowe
EN
Rocznik
Strony
55--60
Opis fizyczny
Bibliogr. 19 poz., tab., rys.
Twórcy
  • Department of Environmental Chemistry, University of Warmia and Mazury in Olsztyn, 4 Łódzki Sq., 10-727 Olsztyn, Poland
  • Department of Environmental Chemistry, University of Warmia and Mazury in Olsztyn, 4 Łódzki Sq., 10-727 Olsztyn, Poland
autor
  • Department of Environmental Chemistry, University of Warmia and Mazury in Olsztyn, 4 Łódzki Sq., 10-727 Olsztyn, Poland
autor
  • Department of Environmental Chemistry, University of Warmia and Mazury in Olsztyn, 4 Łódzki Sq., 10-727 Olsztyn, Poland
Bibliografia
  • 1. Antonkiewicz J., Lošák T. 2007. The effect of hard coal ashes on the quality of maize yield. Part 2. Microelements. Acta Univ. Agric. et Silviculturae Mendelianae Brunensis, LV, 1(5): 9-16.
  • 2. Antonkiewicz J. 2009. Assessment of chemical composition of bushgrass (Calamagrostis epigejos L.) occurring on furnace waste and carbide residue lime landfills. Part 1. Contents of N, P, K, Ca, Mg and Na. Ecol. Chem. Eng. A, 16(5-6): 501-513.
  • 3. Ciećko Z., Żołnowski A.C., Kulmaczewska J., Chełstowski A. 2009. Wpływ następczy melioracyjnych dawek popiołów z węgla kamiennego na kwasowość gleby. Zesz. Probl. Post. Nauk Roln., 535: 73-83.
  • 4. Gourab R., Vadakepuram C.J. 2011. Dose-related effect of fly ash on edaphic properties in laterite cropland soil. Exotox. Environ. Safe., 74: 769-775.
  • 5. Hjemar O. 1990. Leachate from land disposal of coal fly ash. Waste Manag. Res., 8: 429-449.
  • 6. Kovacik P., Macak M., Ducsay L., Halcinova M., Jancich M. 2011. Effect of ash-fly ash mixture application on soil fertility. J. Elem., 2: 215-225.
  • 7. Lee C.H., Lee H., Lee Y.B., Chang H.H., Ali M.A., Min W., Kim S., Kim P.J. 2007. Increase of available phosphorus by fly-ash application in paddy soils. Commun. Soil Sci. Plan., 38: 1551-1562.
  • 8. Lee H., Ha H.S., Lee C.H., Lee Y.B., Kim P.J. 2006. Fly ash effect on improving soil properties and rice productivity in Korean paddy soils. Biore¬source Technol., 97: 1490-1497.
  • 9. Matsi T., Keramidas V.Z. 1999. Fly ash application on two acid soils and its effect on soil salinity, pH, B, P and on ryegrass growth and composition. Environ. Pollut., 104: 107-112.
  • 10. Meller E. 1999. Zmiany we właściwościach gleby piaszczystej nawożonej zróżnicowanymi dawkami popiołów z elektrowni „Dolna Odra”. Zesz. Nauk. AR w Szczecinie, 78: 189-201.
  • 11. Microsoft Excel 2010. www.microsoft.com; 2010.
  • 12. Mittra B.N., Karmakar S., Swain D.K., Ghosh B.C. 2005. Fly ash – a potential source of soil amendment and a component of integrated plant nutrient supply system. Fuel, 84: 1447-1451.
  • 13. Ochrona Środowiska 2012. Informacje i opracowania statystyczne. Główny Urząd Statystyczny, Warszawa; 2012.
  • 14. Statsoft Statistica 10.0 (data analysis software system). www.statsoft.com; 2012.
  • 15. Tejasvi A., Kumar S. 2012. Impact of Fly Ash on Soil Properties. Natl. Acad. Sci. Lett., 35(1): 13-16.
  • 16. Theis T.L., Gardner K.H. 1990. Environmental assessment of ash of ash disposal. Crit. Rev. Env. Contr., 20(1): 21-42.
  • 17. Ukwattage N.L., Ranjith P.G., Bouazza M. 2013. The use of coal combustion fly ash as a soil amendment in agricultural lands (with comments on its potential to improve food security and sequester carbon. Fuel, 109: 400-408.
  • 18. Veeresh H., Tripathy S., Chaudhuri D., Ghosh B.C., Hart B.R., Powell M.A. 2003. Changes in physical and chemical properties of three soil types in India as a result of amendment with fly ash and sewage sludge. Environ. Geol., 43: 513-520.
  • 19. Właśniewski S. 2009. Wpływ nawożenia popiołem lotnym z węgla kamiennego na wybrane właściwości chemiczne gleby piaszczystej i plonowanie owsa. Ochr. Środ. Zas. Nat., 41: 479-488.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-02a21da5-6bcc-4c4a-aba9-b5fd638c3853
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