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The effectiveness of reclamation activities in a tailing pond has been evaluated by the application of mineral and organic substances and remediation plants with water absorbing geocomposites. The research was conducted on the tailing pond of the former copper mine in Iwiny, Poland, basing on a strict, trifactorial experiment set up with the use of the split-split-plot method with 4 replications. The main experimental factors were the variants of substrate modification, various species (or mixtures) of reclamation plants and the presence of water absorbing geocomposites. The conducted experiments did not demonstrate a significant influence of various types of tailing additives. The usability of individual species of reclamation grass or their mixtures for the reclamation was similar. Water absorbing geocomposites contributed to the improvement of difficult vegetation conditions that occur in tailing ponds.
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Rocznik
Tom
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71--81
Opis fizyczny
Bibliogr. 27 poz., tab., rys.
Twórcy
autor
- Institute of Agroecology and Plant Production, Wrocław University of Environmental and Life Sciences, pl. Grunwaldzki 24A, Wrocław, Poland
autor
- Institute of Agroecology and Plant Production, Wrocław University of Environmental and Life Sciences, pl. Grunwaldzki 24A, Wrocław, Poland
autor
- Institute of Environmental Engineering, Wrocław University of Environmental and Life Sciences, pl. Grunwaldzki 24, Wrocław, Poland
Bibliografia
- [1] RYBAK J., KOŁWZAN B., GRABAS K., PASTERNAK G., KRAWCZYŃSKA M., Biological characteristics of “Wartowice” post-flotation tailings pond (Lower Silesia, Poland), Arch. Environ. Prot., 2017, 40 (1), 71.
- [2] PATRZAŁEK A., POZZI M., Physical and chemical properties of topsoil used for biological restoration of coal mine waste-based structures in Upper Silesian coal basin, 24th Meeting American Society of Mining and Reclamation, Gillette, Wyoming, 2007, 618.
- [3] ZORNOZA R., FAZ Á., CARMONA D.M., ACOSTA J.A., MARTÍNEZ-MARTÍNEZ S., DE VRENG A., Carbon mineralization, microbial activity and metal dynamics in tailing ponds amended with pig slurry and marble waste, Chemosphere, 2013, 90 (10), 2606.
- [4] MUÑOZ M.A., GUZMAN J.G., ZORNOZA R., MORENO F., FAZ A., LAL R., Effects of biochar and marble mud on mine waste properties to reclaim tailing ponds, Land Degrad. Dev., 2016, 27 (4), 1227.
- [5] WANG L., JI B., HU Y., LIU R., SUN W., A review on in situ phytoremediation of mine tailings, Chemosphere, 2017, 184, 594.
- [6] SPIAK Z., GEDIGA K., Assessment of the applicability of some mineral wastes for revitalization of a postflotation dumping site, Przem. Chem., 2012, 91 (5), 990.
- [7] WU Y., LI Y., ZHENG C., ZHANG Y., SUN Z., Organic amendment application influence soil organism abundance in saline alkali soil, Eur. J. Soil Biol., 2013, 54, 32.
- [8] MARQUES A.P.,RANGEL A.O.,CASTRO P.M., Remediation of heavy metal contaminated soils: phytoremediation as a potentially promising clean-up technology, Crit. Rev. Environ. Sci. Technol., 2009, 39 (8), 622.
- [9] SHEORAN V., SHEORAN A.S., POONIA O., Soil reclamation of abandoned mine land by revegetation. A review, Int. J. Soil Sed. Water, 2010, 3 (2), 13.
- [10] LEJCUŚ K., DĄBROWSKA L., Characteristics of selected properties of superabsorbents, Infr. Ecol. Rural Areas, 2012, 3 (4), 59.
- [11] HÜTTERMANN A., ORIKIRIZA L.J., AGABA H., Application of superabsorbent polymers for improving the ecological chemistry of degraded or polluted lands, Clean J., 2009, 37 (7), 517.
- [12] ZOHURIAAN-MEHR M.J., OMIDIAN H., DOROUDIANI S., KABIRI K., Advances in non-hygienic applications of superabsorbent hydrogel materials, J. Mater. Sci., 2010, 45 (21), 5711.
- [13] LEJCUŚ K., DĄBROWSKA J., GARLIKOWSKI D., KORDAS L., Water loss from soil and water absorbing geocomposites, Int. Proc. Chem. Biol. Environ. Eng., 2015, 6 (84), 123.
- [14] BUCHHOLZ F.L., GRAHAM A.T., Modern Superabsorbent Polymer Technology, Wiley, 1998.
- [15] LEJCUŚ K., DĄBROWSKA J., GRZYBOWSKA-PIETRAS J., GARLIKOWSKI D., LEJCUŚ I., PAWŁOWSKI A., ŚPITALNIAK M., Optimisation of operational parameters for nonwoven sheaths of water absorbing geocomposites in unsaturated soil conditions, Fibres Text. East. Eur., 2016, 24, 3 (117), 110.
- [16] GRABAS K., GEDIGA K., KOŁWZAN B., SPIAK Z., KASZUBKIEWICZ J., MIZERA W., The concept of reclamation of the copper ore flotation tailings landfill “Wartowice” No. 3. [In:] J. Skowronek (Ed.), Innovative solutions for revitalization of degraded areas, Institute of Ecology of Industrial Areas, Katowice 2011, 93 (in Polish).
- [17] ISLAM M. R., HU Y., MAO S., MAO J., ENEJI A.E., XUE X., Effectiveness of a water‐saving super‐absorbent polymer in soil water conservation for corn (Zea mays L.) based on eco‐physiological parameters, J. Sci. Food Agric., 2011, 91 (11), 1998.
- [18] DE VARENNES A., CUNHA-QUEDA C., QU G., Amendment of an acid mine soil with compost and polyacrylate polymers enhances enzymatic activities but may change the distribution of plant species, Water Air Soil Pollut., 2010, 208 (1–4), 91.
- [19] KORDAS L., TASZ W., Yielding and content of macroelements of selected energy crops grown on modified by addition of mineral and organic from flotation tailings of copper ores, Fragm. Agron., 2012, 29 (3), 103 (in Polish).
- [20] LEJCUŚ K., DĄBROWSKA J., GARLIKOWSKI D., ŚPITALNIAK M., The application of water absorbing geocomposites to support plant growth on slopes, Geosynth. Int., 2015, 22 (6), 452.
- [21] DANIELEWICZ D., SURMA-ŚLUSARSKA B., ŻUREK G., MARTYNIAK D., Selected grass plants as biomass fuels and raw materials for papermaking. Part I. Calorific value and chemical composition, BioRes., 2015, 10 (4), 8539.
- [22] SREEDHAR Y., NAGARAJU A., THEJASWI A., BHARGAVA Y., Reclamation of abandoned mine land: a case study from Tummalapalle uranium mining area, Cuddapah District, Andhra Pradesh, South India, Fresen. Environ. Bull., 2017, 26 (2A), 1373.
- [23] DE CONINCK A.S., KARAM A., Impact of organic amendments on aerial biomass production, and phytoavailability and fractionation of copper in a slightly alkaline copper mine tailing, Int. J. Min. Reclam. Environ., 2008, 22 (4), 247.
- [24] HAO X.Z., ZHOU D.M., WANG Y.J., CANG L., CHEN H.M., Effect of different amendments on ryegrass growth in copper mine tailings, Pedosphere, 2003, 13 (4), 299.
- [25] GEDIGA K., SPIAK Z., The effect of mineral wastes on the mobility of copper in post-flotation sediments, Przem. Chem., 2016, 95 (5), 1045.
- [26] MUGICA-ALVAREZ V., CORTÉS-JIMÉNEZ V., VACA-MIER M., DOMÍNGUEZ-SORIA V., Phytoremediation of mine tailings using Lolium multiflorum, Int. J. Environ. Sci. Dev., 2015, 6 (4), 246.
- [27] ZORNOZA R., FAZ Á., CARMONA D.M., ACOSTA J.A., MARTÍNEZ-MARTÍNEZ S., DE VRENG A., Carbon mineralization, microbial activity and metal dynamics in tailing ponds amended with pig slurry and marble waste, Chemosphere, 2013, 90 (10), 2606.
Uwagi
PL
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-e8199085-56c3-4a78-9a6c-3aac01cb5ff1