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Immobilizacja cynku i kadmu w glebach w wyniku stosowania substratów odpadowych

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Warianty tytułu
EN
The Immobilization of Zinc and Cadmium in the Soil as a Result of the Use of Waste Substrates
Języki publikacji
PL
Abstrakty
EN
The overall goal of the presented work was to evaluate the effects of a fertilizing mixture of sewage sludge, brown coal and brown coal (O+W+P) ash on mobility of Zn and Cd in soil environment and metal uptake by Miscanthus Giganteus. The pot experiment was done in semi-natural conditions from April 2007 to January 2008. The soil that was used in the experiment was taken from surroundings of Huta Częstochowa and village Dyrdy. Both soils were poorly contaminated with zinc and cadmium (II0) but there was a difference in their profiles, pH, granulometric compositions, sorption properties etc. The soil used in experiments was taken from 30 points lying on the diagonal of the study area with a depth of 0 to 20 cm. The pots used in the experiment had a capacity of 11 dm3,filled with soil of its natural moisture content after sieving through a sieve with a mesh diameter of 5 mm. For each soil there were used 6 combinations of fertilization and each of the combination was repeated in four pots. The effect of the prepared formulation was compared with the operation of the same residues (O), the mixture of sludge and mineral fertilizer (NPK+O), a mixture of lignite and mineral fertilizer (NPK+W) and the fertilization with mineral fertilizers (NPK). During periods of no precipitation or low precipitation values, the plants were watered to obtain soil moisture level of 60%. Results of this study indicate that all types of fertilizer improved sorption properties of soils, but in varying degrees. The reason is the increase in total exchangeable cations and a significant increase in the sorption capacity of the soil and the degree of saturation of the sorption complex bases. Depending on the soil type, the application of the investigated fertilizing mixture resulted in the increase in pH by 0,3–0,4, sorption capacity by 3,0 cmol(+)kg-1 and degree of sorption complex saturation with bases by 10–40%. The applied fertilizing mixture had a significant effect on limitation of bioavailable forms of Zn and Cd in soils and the content of metals in plant biomass. The introduction of O+W+P and W + NPK mixtures mostly affected to reduction of soluble forms of Zn and Cd in 1 M HCl and 0.01 M CaCl2 in studied soils. To estimate the degree of immobilization of metals in media immobilization If ratios were calculated. If values confirmed that the fertilizations O+W +P and W+NPK contributed to the immobilization of Zn and Cd in both soils. In soil enriched with O+W +P there was an observed reduction of zinc content in plants by approximately 15.0% compared to plants grown on control soil. The reduction of the cadmium content in plants grown on enriched soil 1 O+W+P was approximately 15.0% and approximately 17.0% in soil 2 in relation to the content of the crops grown on unfertilized soils. This was primarily the result of the enrichment of soil by organic matter and soil pH increase which resulted in limiting the mobility and bioavailability of heavy metals.
Słowa kluczowe
Rocznik
Strony
1772--1786
Opis fizyczny
Bibliogr. 19 poz., tab., rys.
Twórcy
autor
  • Politechnika Częstochowska
  • Politechnika Częstochowska
  • Politechnika Częstochowska
autor
  • Politechnika Częstochowska
Bibliografia
  • 1. Bień J., Kowalczyk M., Kamizela T., Mrowiec M.: The influence of ultrasonic disintegration aided with chemicals on the efficiency of sewage sludge centrifugation. Environment Protection Engineering, No. 1, Vol. 36, 35–43 (2010).
  • 2. Blake L., Goulding K.W.T.: Effects of atmospheric deposition, soil pH and acidification on heavy metal contents in soils and egetation of semi-natural ecosystems at Rothamsted Experimental Station. UK. Plant and Soil 240: 235–251 (2002).
  • 3. Fijalkowski K., Rosikon K., Grobelak A., Kacprzak M.: Migration of various chemical compounds in soil solution during inducted phytoremediation. Archives of Environmental Protection, 37 (4), 49–59 (2011).
  • 4. Gasco G., Martinez-Inigo M., Lobo M.: Soil organic matter transformation after a sewage sludge application. EJEAFChe, 3, 716–723 (2004).
  • 5. Gębski M.: Czynniki glebowe oraz nawozowe wpływające na przyswajanie metali ciężkich przez rośliny. Post. Nauk Roln. 5: 3–16 (1998).
  • 6. Kabata-Pendias A.: Soil-plant transfer of trace elements-an environmental issue. Geoderma, 122, 143–149 (2004).
  • 7. Kabata-Pendias A., Pendias H.: Biogeochemia pierwiastków śladowych. Wyd. II. PWN, Warszawa, 1999.
  • 8. Kalembasa S., Tengler Sz.: Rola węgla brunatnego w nawożeniu i ochronie środowiska. Wyd. Akademii Podlaskiej, Siedlce, 2004.
  • 9. Karczewska A., Kabała C.: Metodyka analiz laboratoryjnych gleb i roślin. Wyd. Akademii Rolniczej we Wrocławiu, Wrocław, 2008.
  • 10. Majewska M., Kurek E.: Mikroorganizmy – czynnikiem modyfikującym stężenie kadmu w roztworze glebowym. Post. Nauk Roln. 1, 3–13 (2002).
  • 11. Mc Bride M.B.: Cadmium uptake by crops estimated from soil total Cd and pH. Soil Scie. Vol. 167 (1): 62–67 (2002).
  • 12. Nowak W., Wojtasik A.: Zawartość kadmu i niklu w marchwi uprawianej na dwóch typach gleb przy zastosowaniu różnych nawozów wieloskładnikowych. Zesz. Prob. Post. Nauk Roln. 448a: 269–272 (1997).
  • 13. Ociepa E.: The effect of fertilization on yielding and heavy metals uptake by maize and virgina fanpetals (Sida Hermaphrodita). Archives of Environmental Protection, Vol.37, No.2, 123–129 (2011).
  • 14. Rozporządzenie Ministra Środowiska w sprawie komunalnych osadów ściekowych z dnia 13 lipca 2010 r. (Dz.U.Nr.137, poz.813).
  • 15. Sady W., Smoleń S.: Wpływ czynników glebowo-nawozowych na akumulację metali ciężkich w roślinach. X Ogólnopolskie Sympozjum Naukowe Efektywność stosowania nawozów w uprawach ogrodniczych, Wyd. Aka¬demii Rolniczej w Poznaniu, Poznań, 269–277 (2004).
  • 16. Van Gestel C.A.M.: Physico-chmical and biological parameters determine metal bioavailability in soils. Science of the Total Environment, 406, 385–394 (2008).
  • 17. Wang X., Chen T., Ge Y., Jia Y.: Studies on land app,ication of sewage sludge and its limiting factors. Journal of Hazardous Materials, 160, 554–558 (2008).
  • 18. Wolski P., Wolny L.: Effect of disintegration and fermentation on the susceptibility of sewage sludge to dewatering, Rocznik Ochrona Środo¬wiska (Annual Set the Environment Protection), 13, 1697–1706 (2011).
  • 19. Zaniewicz-Bajkowska A.: Następczy wpływ nawożenia organicznego i wapnowania na pH gleby, zawartość kadmu i ołowiu w glebie i w sałacie kruchej odmiany Samba uprawianej w trzecim roku po nawożeniu. Ann. UMCS Sectio EEE Hort. 8, Supp.: 183–188 (2000).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-54405ea1-5600-405e-9e1a-7c360f26026d
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