Soil contamination with copper and its effect on selected soil properties after applying neutralizing substances

• Autorzy: Wyszkowski M.
• Języki publikacji: EN

Abstrakty

EN

The aim of this study was to determine the effects of copper contamination (0, 50, 100, 150, and 200 mg Cu/kg of soil) and neutralising substances on the content of total organic carbon, total nitrogen, available forms of phosphorus, potassium, and magnesium, and C:N ratio in soil. The experiment was conducted in four series: without neutralising substances and with compost 3% of soil weight, bentonite 2% of soil weight, and zeolite 2% of soil weight. Contamination of soil with copper and the application of the neutralising substances had a significant effect on soil properties. Contamination with copper in the series without substances increased the content of total nitrogen and available phosphorus, potassium, and especially magnesium. Copper also widened the C:N ratio in soil. All of the amendments applied to the soil had the strongest effect on the content of total nitrogen and the C:N ratio in soil. They reduced the content of total nitrogen and widened the C:N ratio. Amendments also increased the content of available magnesium in soil. The effect of the substances applied to soil on the content of the other elements was significantly weaker, as it changed by up to 12%.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2019
• Tom: 28
• Numer: 4
• Opis fizyczny: p.2465-2471,fig.,ref.

Twórcy

autor

Wyszkowski M.

• Department of Environmental Chemistry, University of Warmia and Mazury in Olsztyn, Olsztyn, Poland

Bibliografia

• 1. NICHOLSON F.A., SMITH S.R., ALLOWAY B.J., CARLTON-SMITH C., CHAMBERS B.J. An inventory of heavy metals inputs to agricultural soils in England and Wales. Sci. Total Environ. 311 (1-3), 205, 2003.
• 2. HERCER M., WYSZKOWSKI M., MODRZEWSKA B. Impact of traffic on the content of trace elements in soils along State Road 53 (Poland). Fresen. Environ. Bull. 25 (3), 719, 2016.
• 3. WYSZKOWSKI M. Effect of contamination with copper and mineral or organic amendments on the content of trace elements in soil. Environ. Prot. Eng. 43 (4), 165, 2017.
• 4. FIJAŁKOWSKI K., KACPRZAK M., GROBELAK A., PLACEK A. The influence of selected soil parameters on the mobility of heavy metals in soils. Environ. Prot. Eng. 15 (1), 81, 2012.
• 5. BOROWIK A., WYSZKOWSKA J., KUCHARSKI J., BAĆMAGA M., BOROS-LAJSZNER E., TOMKIEL M. Sensitivity of soil enzymes to excessive zinc concentrations. J. Elem. 19 (3), 637, 2014.
• 6. DOMAŃSKA J., BADORA A., FILIPEK T. The sensitivity of Brassica napus ssp. oleifera to cadmium (Cd) and lead (Pb) contamination at different pH of mineral and organic soils. J. Elem. 20 (1), 59, 2015.
• 7. SKWARYŁO-BEDNARZ B., BRODOWSKA M.S., BRODOWSKI R. Evaluating the influence of varied NPK fertilization on yielding and microelements contents at amaranth (Amaranthus cruentus L.) depending on its cultivar and plant spacing. Acta Sci. Pol.-Hortoru., 10 (4), 245, 2011.
• 8. TAPPERO R., PELTIER E., GRÄFE M., HEIDEL K., GINDER-VOGEL M., LIVI K.J., RIVERS M.L., MARCUS M.A., CHANEY R.L., SPARKS D.L. Hyperaccumulator Alyssum murale relies on a different metal storage mechanism for cobalt than for nickel. New Phytol. 175 (4), 641, 2007.
• 9. HANSCH R., MENDEL R.R. Physiological functions of mineral micronutrients (Cu, Zn, Mn, Fe,Ni, Mo, B, Cl). Curr. Opin. Plant Biol. 12, 259, 2009.
• 10. MANIVASAGAPERUMAL R., VIJAYARENGAN P., BALAMURUGAN S., THIYAGARAJAN G. Effect of copper on growth, dry matter yield and nutrient content of Vigna radiata (L.) Wilczek. J. Phytol. 3 (3), 53, 2011.
• 11. GAETKE L.M., CHOW-JOHNSON H.S., CHOW C.K. Copper: toxicological relevance and mechanisms. Arch. Toxicol. 88 (11), 1929, 2014.
• 12. ŻOŁNOWSKI A., BUSSE M., ZAJĄC P. Response of maize (Zea mays L.) to soil contamination with copper depending on applied contamination neutralising substances. J. Elem. 18 (3), 507, 2013.
• 13. PSZCZÓŁKOWSKI W., ROMANOWSKA-DUDA Z., PSZCZÓŁKOWSKA A., GRZESIK M., WYSOKIŃSKA Z. Application of phytoremediation in restoring sustainable development to the environment: economic and soil conditions comparative economic research. Central and Eastern Europe, 3, 37, 2012.
• 14. KNOX A.S., SEAMAN J.C., MENCH M.J., VANGRONSVELD J. Remediation of metal and radionuclides-contaminated soils by in situ stabilization techniques. In: Environmental Restoration of Metals-Contaminated Soils, Ed. I.K. Iskandar. Lewis, Boca Raton, FL, USA, 21, 2001.
• 15. BOLAN N., ADRIANO D., MANI S., KHAN A. Adsorption, complexation, and phytoavailability of copper as influenced by organic manure. Environ. Toxicol. Chem. 22, 450, 2003.
• 16. MUSZYŃSKI P., BRODOWSKA M.S. Effects of potassium, ammonium, and calcium chlorides on the sorption of metamitron in soil. Pol. J. Environ. Stud. 23 (6), 2125, 2014.
• 17. Feng N., Dagan R., Bitton G. Toxicological approach for assessing the heavy metal binding capacity of soils. Soil Sediment Contam. 16, 451, 2007.
• 18. Kosiorek M., Wyszkowski W. Effect of neutralising substances on selected properties of soil contaminated with cobalt. J. Ecol. Eng. 17 (3), 193, 2016.
• 19. US-EPA Method 3051, Microwave assisted acid digestion of sediment, sludges, soils and oils, 1994.
• 20. LITYŃSKI T., JURKOWSKA H., GORLACH E. Chemical and agriculture analysis. PWN, Warszawa, 129, 1976 [in Polish].
• 21. DELL INC. Dell Statistica (data analysis software system), version 13, software.dell.com, 2016.
• 22. ŠIMANSKÝ V., POLLÁKOVÁ N. Soil organic matter and sorption capacity under different soil management practices in a productive vineyard. Arch. Agron. Soil Sci. 60 (8), 1145, 2014.
• 23. BEDNAREK W., DRESLER S., TKACZYK P., HANAKA A. Available forms of nutrients in soil fertilized with liquid manure and NPK. J. Elem. 17 (2), 169, 2012.
• 24. WRIGHT A.L., PROVIN T.L., HONS F.M., ZUBERER D.A., WHITE R.H. Compost source and rate effects on soil macronutrient availability under Saint Augustine Grass and Bermuda Grass Turf. Compost Sci. Utiliz. 15 (1), 22, 2007.
• 25. WYSZKOWSKI M., SIVITSKAYA V. Changes in the content of organic carbon and available forms of macronutrients in soil under the influence of soil contamination with fuel oil and application of different substances. J. Elem. 17 (1), 139, 2012.
• 26. KONDRATOWICZ-MACIEJEWSKA K., KOBIERSKI M. Content of available magnesium, phosphorus and potassium forms in soil exposed to varied crop rotation and fertilisation. J. Elem. 16 (4), 543, 2011.
• 27. ŠIMANSKÝ V., KOVÁČIK P. Long-term effects of tillage and fertilization on pH and sorption parameters of haplic Luvisol. J. Elem. 20 (4), 1033, 2015.
• 28. WYSZKOWSKI M., MODRZEWSKA B. Development of the selected properties of zinc-contaminated soil following an addition of neutralising substances. Polish J. Soil Sci. XLIX, 2, 101, 2016.
• 29. Ostrowska A., Gawliński S., Szczubiałka Z. Methods for analyzing and assessing the properties of soil and plants. Inst. Ochr. Środ., Warszawa, 333, 1991. [in Polish].

Identyfikatory

DOI

10.15244/pjoes/90357