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Changes in the Contents of Selected Heavy Metals in Test Plants Fertilised With Sewage Sludge and Hard Coal Ash

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Języki publikacji
EN
Abstrakty
EN
The study aimed at determining changes in the contents of selected metals in the biomass of test plants due to fertilisation with fresh and composted sewage sludge, hard coal ash, and sludge-ash mixture, as well as liming at a background of mineral nutrition. The experimental design was a completely randomised arrangement with three replicates. The following factors were examined: fertilisation with organic and mineral materials (fresh sewage sludge; composted sewage sludge; hard coal ash; calcium carbonate) and mineral fertilisation (no fertilisation; NPK fertilisation). An application of sewage sludge, hard coal ash, and sludge-ash mixture significantly increased maize content of barium. Addition of hard coal ash into sewage sludge contributed to an increase in lead content determined in cocksfoot biomass harvested from the first and second cut, and barium in maize biomass. Soil liming significantly affected barium content the biomass of plants harvested from the first and second cut, as well as in maize biomass. NPK nutrition significantly increased barium concentrations in the biomass of test plants and maize.
Słowa kluczowe
Rocznik
Strony
97--102
Opis fizyczny
Bibliogr. 21 poz., tab.
Twórcy
autor
  • Siedlce University of Natural Sciences and Humanities, Institute of Health Sciences, B. Prusa 12 St., 08-110 Siedlce, Poland
Bibliografia
  • 1. Antonkiewicz J. 2007a. Effect of ash-and-sludge and ash-and-peat blends on field of Grass-birdsfoot trefoil mixture and level of selected elements in mixture. Acta Sci. Pol., Formatio Circumiectus 6,3, 61–72. (in Polish)
  • 2. Antonkiewicz J. 2007b. The influence of various ash-and-sludge and ash-and-peat mixtures on yield and elements content in grass-birdsfoot-trefoil mixture. Part II. Heavy metals, Advances of Agricultural Science Problem Issues, 520, 265–278.
  • 3. Antonkiewicz J. 2009. Use incineration ash for binding heavy metals in soil, Environmental Protection and Natural Resources, 41, 398–405. (In Polish)
  • 4. Castaldi P., Santona L., Melis, P. 2006. Evolution of heavy metals mobility during municipal solid waste composting, Fresenius Environmental Bulletin, 15,9B, 1133–1140.
  • 5. Czekała J. 2002. Selected properties of sewage sludge from sewage treatment plants in Wielkopolska, Part I. Reaction, dry matter, organic matter, organic carbon and macronutrients, Acta Agrophysica, 200,70, 75–82.
  • 6. Farasat S., Namli A. 2016. Evaluating efects of sewage sludge on soil biochemical properties amounts (incubation experiment), Fresenius Environmental Bulletin, 25,5, 1484–1493.
  • 7. Gębski M. 1998. Soi land fertilizer factors affecting the uptake of heavy metals by plants, Postępy Nauk Rolniczych 5, 3–16. (in Polish)
  • 8. Gondek K. 2004. Effect of mineral fertilisation, farmyard manure and tannery sludge treatment on selected heavy metal concentrations in plants and soil, Acta Agrophysica, 3,3, 465–478.
  • 9. Jackowska J. 2002. Heavy metals in sewage sludges treated with dolomite, Advances of Agricultural Science Problem Issues, 482, 199–203. (in Polish)
  • 10. Jasiewicz Cz., Antonkiewicz J., Baran A. 2006. Influence of organic fertilizers on heavy metal content in tall oat Grass, Ecological Chemistry and Engineering, 13,9, 915–923.
  • 11. Kabata-Pendias A., Pendias H. 1999. Biogeochemia pierwiastków śladowych. PWN Warszawa, 399.
  • 12. Kalembasa S., Godlewska A., Wysokiński A. 2008. The chemical composition of ashes from Brown coal and hard coal in the kontent of their agricultural utilization, Soil Science Annual LIX, 2, 93–97. (in Polish)
  • 13. Maksimovic S., Blagojevic S., Pilic R., Stanojkovic, A. 2008. Quality characteristics of some Grass cultivated on fly-ash deposits of a termal Power stadion, Fresenius Environmental Bulletin, 17,5, 584–588.
  • 14. Mercik S., Kubik I. 1995. Chelating of heavy metals by the humus acids and influense of peat on the uptake of Zn, Pb and Cd by plants. Advances of Agricultural Science Problem Issues, 422, 19–30. (in Polish)
  • 15. Kumar V., Chopra A.K. 2015. Heavy metals accumulation in soil and agricultural crops grown in the province of ashai India glass LtD., Haridwar (Uttarakhand), India, Advances in crop Science and Technology, 4,1, 1–6.
  • 16. Soriano-Disla J.M., Gómez I., Guerro C., Jordan M.M., Nawarro-Pedreno J. 2008. Soil factors related to heavy metal bioactivity after sewage sludge application, Fresenius Environmetal Bulletin, 17,11A, 1839–1845.
  • 17. Su D.C., Wong J.W.C. 2004. Chemical speciation and phytoavalability of Zn, Cu, Ni and Cd in soil amended with fly ash-stabilized sewage sludge, Environmental International, 29, 895–900.
  • 18. Tlustos P., Balik J., Szakova J., Palikowa D. 2003. Differences between lead and zinc accumulation in agricultural crops grown at soils with and without sewage sludge addition, Ecological Chemistry and Engineering, 10,9, 983–990.
  • 19. Varavipour M., Givehchi S., Mashal M. 2009. Heavy Metals Distributions and Uptake in Field- Grown Maize after Application of Sewage Sludge in Soil of South Eastern, Iran, Asian Journal of Chemistry, 21,1, 23–30.
  • 20. Wong J.W.C., Selvam A. 2009. Growth and elemental accumulation of plants grown in acidic soil amended with coal fly ash-sewage sludge co-compost, Environmental Contamination Toxicology, 57, 515–523.
  • 21. Yürük A., Bozkurt M.A. 2006. Heavy metal accumulation in different organs of plants grown under high sewage sludge doses, Fresenius Environmental Bulletin, 15,2, 107–112.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-45b04f17-a5fb-4a66-9b2d-a985688577a1
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