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Evaluation of the possibility of phytostabilization of post-flotation tailing ponds

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The effect of organic fertilization and microbiological preparations for phytostabilization of copper ore tailings were examined. It has been shown that the introduction of the pulp, waste from the sugar industry, leads to the mobilization of trace metals. The copper content in aqueous extract of enriched waste was greater than 500-fold higher than in controls. It has also been stated an increase in the toxicity of extracts. While the use of biopreparations for seed treatment contributed to the stimulation of nutrients uptake by plants. In the biomass of plants from treated seeds with a suspension of Azotobacter strain EK, and biosurfactant was found more phosphorus and calcium than in plants from control.
Rocznik
Strony
157--167
Opis fizyczny
Bibliogr. 24 poz., tab., rys.
Twórcy
  • Wrocław University of Technology, Faculty of Environmental Engineering, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland
autor
  • Polish Sanitary Engineers’ Association, ul. Piłsudskiego 74, 50-020 Wrocław, Poland
autor
  • Wrocław University of Environmental and Life Sciences, Faculty of Life Sciences and Technology, pl. Grunwaldzki 24A, 50-363 Wrocław, Poland
  • Wrocław University of Technology, Faculty of Environmental Engineering, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland
autor
  • Wrocław University of Technology, Faculty of Environmental Engineering, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland
autor
  • National Academy of Sciences of Ukraine, Institute of Physical Organic Chemistry, Naukova St. 3a, Lviv, 79053, Ukraine
Bibliografia
  • [1] MIZERA A., The study of soil-forming quality of waste deposited in 1, 2, 3 landfills in terms of their susceptibility to reclamation, Centre for Research and Design of Copper Cuprum, Wrocław 2003.
  • [2] RACHWAŁ B., SZPAKOWSKA B., Attempts of landscape reclamation for the needs of tourism on the example of the Legnica-Głogow Copper District, Nauka Przyroda Technologie, 2009, 3 (1), 1 (in Polish).
  • [3] MARCZYK M., KASZUBKIEWICZ J., Current state of research on the possibility of recultivation of old post-flotation tailing ponds of copper industry on the example of the “Wartowice” landfill. Multidirectional research in agriculture and forestry, University of Agriculture in Cracow, Cracow 2008, 2, 89–97.
  • [4] SHEORAN V., SHEORAN A.S., POONIA P., Soil reclamation of abandoned mine land by revegetation. A review, Int. J. Soil, Sedim. Water, 2010, 3 (1), paper 13.
  • [5] SPIAK Z., GEDIGA K., Usefulness of selected mineral wastes for reclamation of copper industry dumping site, Environ. Prot. Eng., 2009, 35 (1), 79.
  • [6] VENEKLAAS E.J., LAMBERS H., BRAGG J., FINNEGAN P.M., LOVELOCK C.E., PLAXTON W.C., PRICE C., Opportunities for improving phosphorus-use efficiency in crop plants, New Phytol., 2012, 195, 306.
  • [7] VASSILEV A., SCHWITZGUEBEL J.P., THEWYS T., VAN DER LELIE D., VANGRONSVELD J., The use of plants for remediation of metal-contaminated soils, Sci. World J., 2004, 4, 9.
  • [8] RAJKUMAR M., FREITAS H., Influence of metal resistant-plant growth-promoting bacteria on the growth of ricinus communis in soil contaminated with heavy metals, Chemosphere, 2008, 71, 834.
  • [9] RABĘDA I., WOŹNY A., KRZESŁOWSKA M., Bacteria and mycorrhizal fungi increase the efficiency of plants in phytoremediation of trace metals, Cosmos, 2011, 3–4, 423.
  • [10] KRAWCZYŃSKA M., KOLWZAN B., RYBAK J., GEDIGA K., SHCHEGLOVA N.S., The influence of biopreparation on seed germination and growth, Pol. J. Environ. Stud., 2012, 6, 1697.
  • [11] KOLWZAN B., Possible biosurfactant applications in water and soil remediation processes, Ochr. Środ., 2014, 3, 3.
  • [12] CHEN J.H., CZAJKA D.R., LION L.W., SHULER M.L., GHIORSE W.C., Trace metal mobilization in soil by bacterial polymers, Environ. Health Perspect., 1995, 103 (Suppl. I), 53.
  • [13] WOLAK P., ZŁOCIŃSKA A., Examination of chemical composition of sugar beet pulp – a by-product of sugar industry, Eng. Sci. Technol., 2012, 2 (5), 109 (in Polish).
  • [14] Bio Assays for Soils, Ad-Hoc-Committee, Methods for toxicological/ecotoxicological assessment of soils, G. Kreysa, J. Wiesner (Eds.), Deutsche Gesellschaft für Chemisches Apparatewesen, Chemische Technik und Biotechnologie, DECHEMA, Frankfurt am Main 1995.
  • [15] Standard methods for the examination of water and wastewater, 22nd Ed., American Public Health Association, Washington 2012.
  • [16] CHOI K., MEIER P.G., Toxicity evaluation of metal plating wastewater employing the Microtox® assay. A comparison with cladocerans and fish, Wiley, 2001.
  • [17] KARPENKO E., VILDANOVA-MARTSYSHYN R., KOLWZAN B., The new ecologically safe biosurfactants, [in:] Surfactants and dispersed systems in theory and practice, Proc. of the Scientific Conference Surfactant and Dispersed System in Theory and Practice, K. Wilk (Ed.), Polanica Zdrój, May 2003, Oficyna Wydawnicza PWr., Wrocław 2003, 55–60.
  • [18] MURPHY J., RILEY J.P., A modified single solution method for the determination of phosphate in natural waters, Anal. Chim. Acta, 1962, 27, 31.
  • [19] RYBAK J., KOLWZAN B., GRABAS K., PASTERNAK G., KRAWCZYŃSKA M., Biological characteristics of “Wartowice” tailings pond (Lower Silesia, Poland), Arch. Environ. Prot., 2014, 40 (1), 51.
  • [20] SPIAK Z., GEDIGA K., KASZUBKIEWICZ J., GRABAS K., KOŁWZAN B., MIZERA W., RYBAK J., KRAWCZYŃSKA M., SEBASTIAN M., SZPADT R., Assessment of the possibilities of using waste for revitalization of degraded post-industrial areas, Monografie 140, Wydawnictwo Uniwersytetu Przyrodniczego we Wrocławiu, Wrocław 2012 (in Polish).
  • [21] DĄBROWSKA G., HRYNKIEWICZ K., KŁOSOWSKA K., GOC A., Selection of rhizosphere bacteria, which improve phytoremediation processes of soils containing heavy metal compounds, Ochr. Środ., 2011, 33 (2), 53.
  • [22] JIANG C.Y., SHENG X.F., QIAN M., WANG Q., Isolation and characterization of heavy metal-resistant Burkholderia sp. from heavy metal-contaminated paddy field soil and its potential in promoting plant growth and heavy metal accumulation in metal-polluted soil, Chemosphere, 2008, 72 (2), 157.
  • [23] LAMBERS H., BISHOP J.G., HOPPER S.D., LALIBERTE E., ZUŃIGAFEEST A., Phosphorus-mobilisation ecosystem engineering: The roles of cluster roots and carboxylate exudation in young P-limited ecosystems, Ann. Bot., 2012, 110, 329.
  • [24] MA Q., RENGEL Z., SIDDIQUE K.H.M., Wheat and white lupin differ in root proliferation and phosphorus use efficiency under heterogeneous soil P supply, Crop Pasture Sci., 2011, 62, 467.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7a47d6d4-cdb7-4d44-9b3b-3205d41600d2
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