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Phytotoxicity and extractability of heavy metals from industrial wastes

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The content, mobility and phytotoxicity of heavy metals in industrial wastes (sewage sludge, car-bide residue, flotation tailings) have been determined by chemical characterization and biological test. Assessment of phytotoxicity and content of heavy metals in industrial wastes is important for screening the suitability for their land application or storage. The obtained information may provide a better understanding of environmental risks of heavy metals in wastes. Waste phytotoxicity was arranged in the following order: municipal sewage sludge > industrial sewage sludge > carbide residue > flotation tailings from Żelazny Most > flotation tailings from Gilów. High toxicity of sewage sludge can be caused by a high total content of metals and their forms soluble in 1 M HCl. As a result of waste acidification, zinc, chromium, nickel, and cadmium will be released into the environment from sewage sludge, whereas copper and lead will be released from flotation tailings. The study showed a strongly positive correlation between the content of Zn, Ni, Cr, Cd in waste and root growth and seed germination inhibition.
Rocznik
Strony
143--155
Opis fizyczny
BIbliogr. 25 poz., tab., rys.
Twórcy
autor
  • Department of Agricultural and Environmental Chemistry, University of Agriculture in Krakow, al.Mickiewicza 21, 31-120 Krakow
  • Department of Agricultural and Environmental Chemistry, University of Agriculture in Krakow, al.Mickiewicza 21, 31-120 Krakow
Bibliografia
  • [1] PRZENIOSŁO S., TYMIŃSKI M., MALON A., Analysis of quantitative changes in post-mining and post-processing wastes, as well as salines and saltwaters in Poland, Polish Geol. Rev., 2006, 54 (8), 668 (in Polish).
  • [2] BOULARBAH A., SCHWARTZ C., BITTON G., BOULARBAH J.L.M., Heavy metals contamination from mining sites in South Morocco. 1. Use of a biotest to assess metal toxicity of tailings and soils, Chemo-sphere, 2005, 63, 802.
  • [3] ESAKKU S., PALANIVELU K., KURIAN J., Assessment of heavy metals in a municipal solid waste dumpsite, Sust. Landfill Manage., 2003, 139.
  • [4] ŚLIWKA E., KOŁWZAN B., GRABAS K., KLEIN J., KORZEŃ R., Chemical composition and biological properties of weathered drilling wastes, Environ. Prot. Eng., 2012, 38 (1), 129.
  • [5] AN Y.J., Soil ecotoxicity assessment using cadmium sensitive plants, Environ. Pollut., 2004, 127, 21.
  • [6] KRIK J.L., KLIRONOMOS J.N., LEE H., TREVORS J.T., Phytotoxicity assay to assess plant species for phytoremediation of petroleum-contaminated soil, Bioremed. J., 2002, 6 (1), 57.
  • [7] ROMANOWSKA-DUDA Z.B., GRZESIK M., HAZEM M., KALAJI H., Phytotoxkit test in growth assessment of corn as an energy plant fertilized with sewage sludge, Environ. Prot. Eng., 2010, 36 (1), 73.
  • [8] JASIEWICZ C., ANTONKIEWICZ J., BARAN A., Assessment of the use of municipal and industrial wastes in agriculture, Pol. J. Chem. Techn., 2007, 9 (3), 15.
  • [9] JASIEWICZ C., BARAN A., The effect of organic wastes on changes of selected indicator of soil fertility, Ecol. Chem. and Eng., 2008, 15 (10), 1086.
  • [10] ANTONKIEWICZ J., Assessment of bioavailability of heavy metals in wastes used for biological reclamation of hazardous waste landfill, Scientific Papers of the University of Agriculture in Krakow, 2011, 481 (358), 358, 119.
  • [11] Regulation of the Minister of the Natural Environment on catalog of wastes dated 9 December 2014. Journal of Laws of Poland, Item 1923.
  • [12] ŚLIWKA M., BARAN A., WIECZOREK J., Evaluation of toxic metal bioaccumulation in a reservoir of flotation tailings, J. Environ. Studies, 2013, 22 (3), 909.
  • [13] BARAN A., ŚLIWKA M., LIS M., Selected properties of flotation tailings wastes deposited in the Gilów and Żelazny Most wastes reservoirs regarding their potential environmental management, Arch. Min. Sci., 2013, 58 (3), 96.
  • [14] Phytotoxkit. Seed germination and early growth microbiotest with higher plants. Standard Operational Procedure, Nazareth, Belgium, MicroBioTest, Inc., 2004, 24.
  • [15] ANTONKIEWICZ J., Effect of fly ashes and sewage sludge on Fe, Mn, Al, Si and Co uptake by grass mixture, J. Ecol. Eng., 15 (3), 2014, 6.
  • [16] Regulation of the Minister of the Natural Environment on municipal sewage sludge dated 6 February 2015. Journal of Laws of Poland, Item 257.
  • [17] JONIEC J., FURCZAK J., Multi-annual studies on phytotoxicity of podzolic soil amended with municipale industrial sawage sludge using of Lepidium sativum as bioindicator, Adv. Agricult. Sci. Problem Iss., 2009, 535, 173.
  • [18] RADIĆ S., PROLIĆ M., PAWALICA M., PEVALEK-KOZLINA B., Cytogenetic effects on osmotic stress on the root meristem cells Centaurea ragusina L., Environ. Exp. Bot., 2005, 54, 213.
  • [19] FUSCONI A., Effects of cadmium on meristem activity and nucleus ploidy in roots of Pisum sativum L. cv. Frisson seedlings, Environ. Exp. Bot., 2006, 58 (1–3), 253.
  • [20] BARAN A., JASIEWICZ CZ., KLIMEK A., The toxicity content of zinc and cadmium in soil to different plant species, Proc. ECOpole, 2008, 2 (2), 417.
  • [21] OLESZCZUK P., The toxicity of compost from sewage sludges evaluated by direct contact tests Phytotoxkit and Ostarcodotoxkit, Waste Manage., 2008, 28, 1645.
  • [22] KOPEĆ M., GONDEK K., BARAN A., Assessment of respiration activity and ecotoxicity of composts containing biopolymers, Ecotoxicol. Environ. Saf., 2013, 89, 137.
  • [23] STELIGA T., The use of biotests in estimation of weathered drilling waste bioremediation, Arch. Environ. Prot., 2011, 37 (2), 61.
  • [24] RACLAVSKÀ H., DOŜKÀŘOVÀ Š., ŠKROBÀNKOVÀ H., Ecotoxicity of sewage sludges from waste water treatment plant, J. Polish Min. Eng. Soc., 2011, 1 (27), 39.
  • [25] ANTONKIEWICZ J., PARA A., The use of dialdehyde starch derivatives in the phytoremediation of soils contaminated with heavy metals, Int. J. Phytorem., 2016, 18, 3, 245.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6d920f53-0381-446e-a8a5-397432207787
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