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2013 | 15 | 3 | 48-54
Tytuł artykułu

Effect of combustion wastes and sewage sludge compost on the chemical properties of soil

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A field experiment was conducted univariate in 2008-2010 in the Variety Assessment Station in Szczecin - Dąbie. The soil on which the experience was based is made of light loamy sand (pgl). In terms of granulometric composition it includes it into the category of light soils, agricultural suitability complex IV b, good (5). The experiment included, inter alia, waste compost produced with municipal sewage sludge produced by *GWDA and ash from brown coal (waste grate). No normal ranges for heavy metals being specified in the ministerial regulations were used for environmental purposes, which are maximum 20, 500, 750, 300, 1000 and 16 mg per 1 kg dry matter for cadmium, chromium, lead, nickel, copper and mercury, respectively16 were exceeded in the sewage sludge being used to produce the compost. The field experiment design consisted of 6 fertilisation objects. A test plant was Virginia fanpetals (Sida hermaphodrita Rusby). The content of available phosphorus, potassium and magnesium in the soil, being fertilised with municipal SSC with and without an addition of high-calcium BCA, changed after three years. There was an increase in the content of available phosphorus, potassium and magnesium forms, on average by 8.5%, 16.0% and 9.0%, respectively. When analysing the chemical properties of soil before and after this study, it may be stated that respective systems of municipal sewage sludge compost and high-calcium brown coal ash application differently affected most soil richness indices. The best fertilisation effects were obtained in the system with municipal sewage sludge compost being applied at a dose corresponding to 250 kg N ∙ ha-1 as well as with high-calcium brown coal ash at a dose corresponding to 1.5 Mg CaO ∙ ha-1 being introduced into soil in the first year of study and at a dose corresponding to 0.75 Mg CaO ∙ ha-1 in successive years. Fertilisation with municipal sewage sludge compost without and with addition of high-calcium brown coal ash favourably affected the preservation of soil environment stability and improvement of soil chemical composition
Wydawca

Rocznik
Tom
15
Numer
3
Strony
48-54
Opis fizyczny
Daty
wydano
2013-09-01
online
2013-09-20
Twórcy
  • West Pomeranian University of Technology, Szczecin, Department of Land Reclamation and Environmental Chemistry, ul. Juliusza Słowackiego 17, 71-434 Szczecin, Poland, ewa.krzywy-gawronska@zut.edu.pl
Bibliografia
  • 1. Codling, E.E., Chaney, R.L. & Sherwell, J. (2002). Poultry litter ash as a potential phosphorus source for agricultural crops. J. Environ. Quality 31 (3): 954-961, DOI:10.2134/jeg.2002.9540.[Crossref]
  • 2. Kalembasa, D. (2006). The amount and composition of ash from biomass energy crops. Acta Agrophysica 7: 909-914 [in Polish].
  • 3. Krzywy, E., Stankowski, S. & Krzywy-Gawrońska, E. (2008). The content of total forms and forms soluble in 1 M HCl of cadmium, copper, nickel, lead and zinc in the tiers of the reclamation models. Zesz. Prob. Post. Nauk Rol. 533: 231-238 [in Polish].
  • 4. Prętnicka, K. (2001). Review of agricultural land use by-products of combustion. Mater. VIII Międzynar. Konf. „Popioły z energetyki”. Międzyzdroje, 227-243 [in Polish].
  • 5. Rosik-Dulewska, C., Głowala, K., Karwaczyńska, U. & Robak, J. (2008). Elution of heavy metals from granulates produced from municipal sewage deposits and fly-ash of hard and brown coal in the aspect of recycling for fertilization purposes. Archiv. Environm. Protect. 34 (2): 63-71.
  • 6. Han, F.X., Kongery, W.L., Selim, H.M. & Gerald, P. (2000). Accumulation of heavy metals in a long-term poultry waste amended soil. Soil Sci. 156: 260-268.
  • 7. Haroun, M., Idris, A. & Syed Omar, S.R. (2007). Charakterisation and composting of tannery sludge. Malaysian J. Soil Sci. 11: 71-80. DOI: 10.1016/j.wasman.2006.09.006.[Crossref]
  • 8. He, M., Tlan, G. & Liang, X.(2009). Phytotoxicity and speciation of copper, zinc and lead during the aerobics composting of sewage sludge. J. Hazard. Mater. 163: 671-677. DOI: 10.1016/j.jhazmat.2008.07.01.[Crossref][WoS]
  • 9. Ngole, V.M. (2007). Response od copper, lead and zinc mobility and bioavailability to sludge application on different soils. Polish J. Soil Sci. 40 (2): 125-138.
  • 10. Walter, I., Martinez, F. & Cala, V. (2006). Heavy metal speciation of phototoxic effects of three representative sewage sludges for agricultural uses. Environ. Pollut 139: 507-514. DOI: 10.1016/j. envpol.2005.05.020.[Crossref]
  • 11. Wong, J.W.C. & Selvan, A. (2006). Speciation of heavy metals during composting of sewage sludge with lime. Chemosphere 63: 980-986. DOI: 10.1016/j.chemosphere.2005.08.045.[Crossref]
  • 12. 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.[Crossref][WoS]
  • 13. Iżewska, A. (2007). Impact of fertilization with manure, sewage sludge and compost prepared from sewage sludge on soil properties. Zesz. Probl. Post. Nauk Rol. 518: 85-92 [in Polish].
  • 14. Selivanovskaya, S.Yu. & Latypova, V.Z. (2006). Effect of composted sewage sludge on microbial biomass, activity and pine seedlings in nursery forest. Waste Management, 26: 1253-1258. DOI: 10.1016/j. wasman.2005.09.018.[Crossref]
  • 15. Torri, S., Zubillaga, M. & Cusato, M. (2009). Potential of discaria americana for metal stabilization on soils amendment with biosolids and ash-spiked biosolids. International Journal of Phytoremediation, 11 (2): 187-199. DOI: 10.1080/15226510802378475.[Crossref][WoS]
  • 16. Regulation of the Minister of Environment on municipal sewage sludge. Official Journal of Laws No. 137, item 924 of 2010 [in Polish].
  • 17. Cai, Q.Y., Mo, C.-H., Wu, Q.-T., Zeng, Q.-Y. & Katsoyiannis, A. (2007). Contentration and speciation of heavy metals in six different sewage sludge-composts. J. Hazard Mat. 147: 1063-1072. DOI. 10.1016/j.jhazmet.2007.01.142.[Crossref]
  • 18. Dinesh, R., Chamdhuri, S.G. & Sheeja, T.E. (2004). Soil biochemical and microbial indices in tropical forests: Effect of dephosphatation and cultivation. J. Plant Nutr. Soil Sci. 167 (1): 24-32. DOI: 10.1002/jpln.200321254.[Crossref]
  • 19. Krzywy-Gawrońska, E. (2012). The effect of industrial wastes and municipal sewage sludge compost on the quality of virginia fanpetals (SIDA HERMAPHRODITA RUSBY) biomass. Part 1. Macroelements content and their uptake dynamics. Polish J.Chemical Technology 14 (2) : 915. DOI: 10.2478/v/10026-012-0064-7 [in Polish].[Crossref]
  • 20. Krzywy-Gawrońska, E. (2012). The effect of industrial wastes and municipal sewage sludge compost on the quality of virginia fanpetals (SIDA HERMAPHRODITA RUSBY) biomass. Part 2. Microelements content and their upatke dynamics. Polish J.Chemical Technology 14 (3): 8-14 [in Polish].
  • 21. Regulation of the Minister of Agriculture and Rural Development of 18 June 2008 on the execution of some provisions of the Act on fertilisers and fertilisation. Official Journal of Laws No. 119, item 765 of 2 July 2008 [in Polish].
  • 22. Statistical Yearbook of the Republic of Poland 2009. GUS Warszawa. [in Polish].
  • 23. Baran, S., Wójcikowska-Kapusta, A., Oleszczuk, P., Żurawska, G., Baranowska, E. & Marciniak, M. (2005). Changes of pollutant content Turing sewage sludge composting process. Part I., Total polycyclic aromatic hydrocarbonus content. Chemia i Inżynieria Ekologiczna A 12 (1-2): 19-25 [in Polish].
  • 24. Gibczyńska, M., Meller, E. & Hury, G. (2007). Effect of Brown coal ashes on physical properties of light soil. Zesz. Probl. Post. Nauk. Rol. 518: 53-61 [in Polish].
  • 25. Gilewska, M. (2006). Processing and utilization of ash highcalcium. Quality parameters of lignite and ashes resulting from the combustion in power plants. Materiały Międzynarodowego Seminarium Naukowo-Technicznego. Wyd. Ekotech Bełchatów, 285-293.
  • 26. Gilewska, M. (2004). Biological reclamation of landfills ash from lignite. Rocz. Gleboz. 55 (2): 103-110 [in Polish].
  • 27. Żukowska, G., Baran, S. & Flis-Bujak, M. (1999). Effect of fertilization with sewage sludge and biohumus on the sorption and surface area of sandy soil. Folia Univ. Agric. Stetin., Ser. Agriculturae 200 (77): 421-428 [in Polish].
  • 28. Czyżyk, F. & Kozdraś, M. (2004). Changes in carbon, nitrogen and phosphorus in sandy soil fertilized with compost from rural sewage sludge. Zesz. Probl. Post. Nauk Rol. 499: 47-53 [in Polish].
  • 29. Gondek, K. (2006). The content of various forms of heavy metals in sewage sludge and composts. Acta Agrophys. 8 (4): 825-838 [in Polish].
  • 30. Czekała, J. (2004). Influence of sewage sludge on selected soil chemical properties. Zesz. Probl. Post. Nauk Rol. 499: 39-46 [in Polish].
  • 31. Czekała, J. (2006). Copper and manganese chemical bonds in a sewage sludge composted with straw in a bioreactor under conditions of differentiated air supply. Polish J. Environ. Stud. 15, 2a: 30-35.
  • 32. Grzywnowicz, I. (2007). Dynamic of mineral nitrogen form content In soil after application of sewage sludge as fertilizer. Ecol. Chem. Eng., 14 (3-4): 303-308.
  • 33. Wójcikowska-Kapusta, A., Baran, S., Jaworska, B. & Kwiecień, J. (2000). Changes of selected properties of light soil fertilized with sewage sludge. Folia Univ. Agric. Stetinensis, Agricultura 84: 533-538 [in Polish].
  • 34. Czekała, J. (2008). Chemical properties of compost produced from municipal sewage sludge and various bio-waste. J. Res. Appl. Agric. Eng., 53 (3): 35-41 [in Polish].
  • 35. Krzywy, E., Wołoszyk, C., Mazur, T. & Krzywy, J. (2005). Changes in contents of calcium, magnesium and sulphur during decomposition composts prepared from potato pulp with addition of municipal sewage sludge, straw and sawdust. Chemistry for Agriculture 6: 695-700.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.-psjd-doi-10_2478_pjct-2013-0043
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