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The effect of ash and compost on the content and bioaccumulation of selected heavy metals

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Therefore the carried out study aimed at determination of the effect of high-calcium brown coal ash and compost being produced from municipal sewage sludge on the content and bioaccumulation of heavy metals in potato tubers, wheat grains and rapeseeds during a three-year period. Rapeseeds contained most Cd whereas wheat rains less. Potato tubers, wheat grains and rapeseeds contained more Mn, Ni and Zn in the fertilization objects with municipal sewage sludge with or without coal ash and compared to those where calcium carbonate or coal ash had been introduced into the soil at a dose corresponding to 1.5 Mg CaO · ha−1  at the beginning of this study. Differences in the Mn, Ni and Zn contents in test plants between the fertilization objects with sewage sludge of with and without addition of ash were not significant.
Słowa kluczowe
Rocznik
Strony
20--25
Opis fizyczny
Bibliogr. 27 poz., tab.
Twórcy
  • West Pomeranian University of Technology, Szczecin, Department of Soil Science, Grassland Mangement and Environmental Chemistry, Słowackiego17, 71-434 Szczecin, Poland
  • West Pomeranian University of Technology, Szczecin, Słowackiego17, 71-434 Szczecin, Department of Microbiology and Biotechnology of Environment Słowackiego 17, 71-434 Szczecin, Poland
  • West Pomeranian University of Technology, Szczecin, Department of Soil Science, Grassland Mangement and Environmental Chemistry, Słowackiego17, 71-434 Szczecin, Poland
  • University of Opole, Department of Biotechnology and Molecular Biology, ul. Kardynała Kominka 4, 45-035 Opole, Poland
Bibliografia
  • 1. Berg, W. & Fenerbon, H. (2006).Processing and use of ashes. Fly ash from coal in Europe-properties and applications. (NE Poland).Międzynarodowe Seminarium Naukowo-Techniczne Bełchtów. Ekotech Bełchatów 19-252.
  • 2. Kępas, W. (2008). Attempt of recovery of fly ash and slag from thermal treatment of waste as aggregate material. (NE Poland). Gospodarka surowcami mineralnymi, 34(3/3), 149–154.
  • 3. Szymonek, A. (2008). Acquiring of waste of calcium oxide from theashes. (NE Poland). Chem. Proces Engineer., 29:895-908.
  • 4. Brzozowski, B., Kabała, J., Krzyżanowski, P. & Listkiewicz, J. (2006). Processing and use of ashes. Current state and prospects for the economic use of fly ash BOTin Elektrowni Turów SA. (NE Poland) Materiały Międzynarodowego Seminarium Naukowo-Technicznego, Wydaw. Ekotech, Bełchatów, s. 61.
  • 5. Kovàćik, P., Macàk, M., Ducsay, L., Halcćinovà, M. & Janćich, M. (2011).Effect of ash-fly ash mixture application on soil fertility. J. Elementology,16(2), 215–225. DOI: 10.5601/jelem.2011.16.2.05.
  • 6. Bose, S., Jain, A., Rai, V. & Ramanathan, A.L. (2008). Chemical fractionation and translocation of heavy metals in Canna indica L .grownon industrial soil. J. Hazard. Mater.,160, 187–193. DOI: 0.1016/j.hazmat.2008.02.119.
  • 7. Hargreaves, J.C., Adl, M.S. & Warman, P.R. (2008). A review of the use of composted municipal solid waste in agriculture. Agric. Ecosys. Environ., 123, 1–14. DOI: 10.1016/j.agee.2007.07.004.
  • 8. He, M., Tian, G., & Liang, X. (2009). Phytotoxicity and speciation of copper,inc and lead during the aerobics composting of savage sludge. Journal Hazard. Mater., 163, 671–677. DOI: 10.1016./j.hazmat.2008.07.01.
  • 9. Torri, S., Zubillaga, M. & Cusato, M. (2009). Potential of discaria americana for metal stabilization on soil samended with biosolidsand ash-spiked biosolids. International J. Phytoremediation, 11(2), 187–199: DOI: 10.1080/15226510802378475.
  • 10. Quant, B. (2000).Countering the any negative effects furnace waste landfillson the environment with the use of sewage sludge. (NE Poland). Ekol. Tech., 8(4), 95–99.
  • 11. Maciejewska, A. & Wrońska, D. (2003). Development of mixtures of sludge-ash in the light of the literature, the applicable law and practice. Circulation of elements in nature (NE Poland). Monografia, 2, 634–642.
  • 12. Kucowski, J., Laudyn, D. & Przekwas, M. (1997). Energetics and the Environment. (NE Poland).WNT, Warszawa, s:484.
  • 13. Kabata-Pendias, A. & Pendias, H. (2000).Trace Elements in Soils and Plants. (3 rded.) CRC Press, ss. 413.
  • 14. Michałowski, M. & Gołaś, J. (2001). Heavy metal content in the bodies of willows as an indicator of her use in the disposal of sewage sludge. (NE Poland). Zesz. Probl. Postęp. Nauk Rol. 477, 411–419.
  • 15. Krzywy-Gawrońska, E. (2013). Effect of combustion wastes and sewage sludge compost on the chemical properties of soil. Polish J. Chem. Technol. 15(3), 48–54. DOI: 10.2478/pjct-2013-0043.
  • 16. Regulation of the Minister of Environment on municipal sewage sludge. Official J. Law No. 137, item 924 of 2010.
  • 17. Buczek, J., Tobiasz-Salach, R. & Szpunar-Krok, E. (2007). The use fulness of consumer potatoes and vegetables grown near roads area rzeszowskiego. (NE Poland). Acta Agrophysica, 10(2), 293–301.
  • 18. Gondek, K. (2006). The content of various forms of heavy metals in sewage sludge and composts (NE Poland). Acta Agrophys., 8(4), 825–838.
  • 19. Szewczuk, C. (2009). Influence of foliar nutrition on the yield of potato tubers (NE Poland). Annales UMCS, Sec. E, LXIV(1), 7–12.
  • 20. Iżewska, A. (2006). The content of heavy metals in Miscanthus sacchariflorus as in dicato for utilization sewage sludge and compost prepared from sewage sludge (NE Poland). Zesz. Probl. Postęp. Nauk Rol., 512, 165–171.
  • 21. Iżewska, A.(2007). Impact of fertilization with manure, sewage sludge and compost prepared from sewage sludge on soil properties. (NE Poland). Zesz. Probl. Postęp. Nauk Rol., 518, 85–92.
  • 22. Patorczyk-Pytlik, B. (2006). Use fullness of the BCR procedure for assessing the mobility of Zn in sewage sludge composted by different metodes (NE Poland). Zesz. Probl. Postęp Nauk Rol., 512 (II), 457–464.
  • 23. Sady, W. & Smoleń, S. (2004). Impact of factors the soil and fertilizers on the accumulation of heavy metals in plants. (NE Poland). X Ogólnopolskie Sympozjum Naukowe, Efektywność stosowania nawozów w uprawach ogrodniczych, Kraków, 269–277.
  • 24. Hury, G., Podolska, G., Pol-Szyszko, M., Stankowski, S., Ułasik, S. & Gluba, I. (2007). Successive effect of brown coal ely ash on the quality traits and chemical composition of winter triticale grain (NE Poland). Zesz. Probl. Postęp. Nauk Rol., 518, 77–83.
  • 25. Gibczyńska, M., Meller, E. & Hury, G. (2007). Effect of brown coal ashes on physical Properties light soil. (NE Poland). Zesz. Probl. Postęp. Nauk Rol., 518, 53–61.
  • 26. Baran, S., Żukowska, G. & Wójcikowska-Kapusta, A. (2006). Changes in the contents of heavy metal sewage sludge composted with hard coal ashes. (NE Poland). Zesz. Probl. Postęp. Nauk Rol., 512, 39–46.
  • 27. Flis-Bujak, M., Baran, S. & Żukowska, G. (1996). Properties of organic matter of selected waste of a fertilizer. (NE Poland). Zesz. Probl. Postęp. Nauk Rol., 437, 147–153.
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-916bf940-facf-49be-a521-eb3a9882bc4a
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