The effect of municipal sewage sludge on the content, use and mass ratios of some elements in spring barley biomass

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Abstract

Municipal sewage sludge contains considerable amounts of macro and microelements essential for plant nutrition. With decreasing use of natural and organic fertilizers, there is a need to search for alternative sources of organic matter (which is a substrate for humus reproduction). In a field experiment carried out on heavy soil with neutral reaction, the effect of single application of municipal sewage sludge in a dose of 5.34 Mg·ha−1 DM was compared to an equivalent dose of mineral fertilizers. The test plant was spring barley. After application of municipal sewage sludge, slight positive changes in the chemical properties of the soil were observed. The sewage sludge increased the yield of spring barley grain and straw by, respectively, 14 and 13% in relation to treatment with mineral fertilization. Spring barley fertilized with sewage sludge contained more elements than barley grown only on mineral fertilizers. It was shown that application of municipal sewage sludge to the soil had a significant effect on increase in nutrient uptake by spring barley. Fe was taken up in the highest amount, followed by Al and Mn, and Co was taken up in the smallest amounts. Utilization of Fe, Mn, Co and Al from sewage sludge by spring barley was at 6.0, 4.7, 0.7 and 0.7%, respectively of the amount applied to the soil with this waste. The mass ratios (Fe:Mn, Fe:Al, Mn:Co) analyzed in spring barley biomass were much wider in straw than in grain. In terms of grain feed value, Fe:Mn ratio in grain and straw was greater than optimum.

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  • Ahmed H.Kh. Fawy H.A. Abdel-Hady E.S. 2010. Study of sewage sludge use in agriculture and its effect on plant and soil. Agriculture and Biology Journal of North America 1(5): 1044–1049.

  • Alvarenga P. Mourinha C. Farto M. Santos T. Palma P. Sengo J. Morais M.C. Cunha-Queda C. 2015. Sewage sludge compost and other representative organic wastes as agricultural soil amendments: Benefits versus limiting factors. Waste Management 40: 44–2.

  • Antolín M.C. Pascual I. García C. Polo A. Sánchez-Díaz M. 2005. Growth yield and solute content of barley in soils treated with sewage sludge under semiarid Mediterranean conditions. Field Crops Research 94(2): 224–237.

  • Antonkiewicz J. 2014. Effect of fly ashes and sewage sludge on Fe Mn Al Si and Co uptake by grass mixture. Journal of Ecological Engineering 15(3): 6–13.

  • Aşýk B.B. Katkat A.V. 2010. Evaluation of wastewater sludge for possible agricultural use. Environmental Engineering and Management Journal 10(6): 819–826.

  • Barker A.V. Pilbean D.J. 2007. Handbook of Plant Nutrition. Taylor and Francis Bocca Raton FL: pp. 632.

  • Bauman-Kaszubska H. Sikorski M. 2008. The possibilities of agricultural and natural use of sewage sludge on the example of chosen objects. Advances of Agricultural Sciences Problem Issues 526: 303–310 (in Polish).

  • Bergmann W. 1966. Die Mineralstoffernährung von Pflanze und Tier. Tagungs-Berichte 85 11.

  • Catalogue of wastes. 2014. Regulation of the Minister of the Natural Environment on catalogue of wastes dated 9 December 2014. Journal of Laws of Poland Item 1923.

  • Chen F. Dong J. Wang F. Wu F. Zhang G. Li G. Chen Z. Chen J. Wei K. 2007. Identification of barley genotypes with low grain Cd accumulation and its interaction with four microelements. Chemosphere 67(10): 2082–2088.

  • Domene X. Colón J. Uras M.V. Izquierdo R. Ŕvila A. Alcańiz J.M. 2010. Role of soil properties in sewage sludge toxicity to soil collembolans. Soil Biology and Biochemistry 42(11): 1982–1990.

  • Environment 2016. Statistical Information and Elaborations. Warsaw GUS: pp. 565 (in Polish).

  • Epstein E. 1975. Effect of sewage sludge on some soil physical properties. Journal of Environmental Quality 4(1): 139–142.

  • Falkowski M. Kukułka I. Kozłowski S. 1996. Ocena jakościowa runi łak trwałych. Zeszyty Problemowe Postępów Nauk Rolniczych 442: 41–49.

  • Falkowski M. Kukułka I. Kozłowski S. 2000. Właściwości chemiczne roślin łąkowych. Wydawnictwo Akademii Rolniczej w Poznaniu: pp. 132.

  • Fischer T.B. Potter K. Donaldson S. Scott T. 2011. Municipal waste management strategies strategic environmental assessment and the consideration of climate change in England. Journal of Environmental Assessment Policy and Management 13(4): 541–565.

  • Fytili D. Zabaniotou A. 2008. Utilization of sewage sludge in EU application of old and new methods – a review. Renewable and Sustainable Energy Reviews 12(1): 116–140.

  • Gondek K. 2012. Effect of fertilization with farmyard manure municipal sewage sludge and compost from biodegradable waste on yield and mineral composition of spring wheat grain. Journal of Elementology 2: 231–245.

  • Gondek K. Kopeć M. Głąb T. 2012. The contents of microelements and exogenous amino acids in spring wheat (Triticum aestivum L.) grain after municipal sewage sludge fertilization. Journal of Agricultural Science 4(12): 294–303.

  • Gregorich E.G. Gillespie A.W. Beare M.H. Curtin D. Sanei H. Yanni S.F. 2015. Evaluating biodegradability of soil organic matter by its thermal stability and chemical composition. Soil Biology and Biochemistry 91: 182–191.

  • He C. Giannis A. Wang J.Y. 2013. Conversion of sewage sludge to clean solid fuel using hydrothermal carbonization: hydrochar fuel characteristics and combustion behavior. Applied Energy 111: 257–266.

  • Jones J.B. Case V.W. 1990. Soil testing and plant analysis. 3rd ed. Soil Science Society of America SSSA Chapter 15.

  • Kabata-Pendias A. 2011. Trace elements in soils and plants CRC Press Boca Raton FL: pp. 548.

  • Kabata-Pendias A. Szteke B. 2012. Pierwiastki śladowe w geoi biosferze. Wydawnictwo Instytutu Uprawy Nawożenia i Gleboznawstwa w Puławach-Państwowy Instytut Badawczy: Puławy: pp. 269.

  • Kanu S.A. Okonkwo J.O. Dakota F.D. 2013. Aspalathus linearis (Rooibos tea) as potential phytoremediation agent: a review on tolerance mechanisms for aluminum uptake. Environmental Reviews 21(2): 85–92.

  • Kelessidis A. Stasinakis A.S. 2012. Comparative study of the methods used for treatment and final disposal of sewage sludge in European countries. Waste Management 32(6): 1186–1195.

  • Kępka W. Antonkiewicz J. Jasiewicz C. Gambuś F. Witkowicz R. 2016. The effect of municipal sewage sludge on the chemical composition of spring barley. Soil Science Annual 67(3): 124–130.

  • Kołodziej B. Antonkiewicz J. Sugier D. 2016. Miscanthus×giganteus as a biomass feedstock grown on municipal sewage sludge. Industrial Crops and Products 81: 72–82.

  • Liwski S. 1961. Mikrślementy – mangan żelazo bor miedź kobalt i cynk w roślinności łąkowej i bagiennej. Roczniki Nauk Rolniczych Seria F 75(1): 7–74.

  • Lošák T. Hlušek J. Lampartom I. Elbl J. Mühlbachová G. Čermák P. Antonkiewicz J. 2016. Changes in the content of soil phosphorus after its application into chernozem and haplic luvisol and the effect on yields of barley biomass. Acta Universitatis Agriculturae Et Silviculturae Mendelianae Brunensis 64(5): 1603–1608.

  • Lundin M. Olofsson M. Pettersson G.J. Zetterlund H. 2004. Environmental and economic assessment of sewage sludge handling options. Resources. Conservation and Recycling 41 (4): 255–278.

  • Mackowiak C.L Myer R.O. Blount A.R Foster J.L Barnett R.D. 2011. Yield and mineral concentration of southeastern United States oat cultivars used for forage. Journal of Plant Nutrition 34(12): 1828–1842.

  • Moreno J.L. Garcia C. Hernandez T. 2003. Toxic effect of cadmium and nickel on soil enzymes and the influence of adding sewage sludge. European Journal of Soil Science 54(2): 377–386.

  • Murtaza G. Haynes R.J. Naidu R. Belyaeva O.N. Kim K.R. Lamb D.T. Bolan N.S. 2011. Natural attenuation of Zn Cu Pb and Cd in three biosolids-amended soils of contrasting pH measured using rhizon pore water samplers. Water Air Soil Pollution 221(1–4): 351–363.

  • Nabulo G. Black C.R. Young S.D. 2011. Trace metal uptake by tropical vegetables grown on soil amended with urban sewage sludge. Environmental Pollution 159(2): 368–376.

  • Ostrowska A. Gawliński S. Szczubiałka Z. 1991. Methods of analysis and assessment of soil and plant properties. A Catalgoue. Publisher: Institute of Environmental Protection – National Research Institute Warsaw: pp. 334 (in Polish).

  • Paz-Ferreiro J. Gascó G. Gutiérrez B. Méndez A. 2012. Soil biochemical activities and the geometric mean of enzyme activities after application of sewage sludge and sewage sludge biochar to soil. Biology and Fertility of Soils 48(5): 511–517.

  • Peruzzi E. Masciandaro G. Macci C. Doni S. Ravelo S.G.M. Peruzzi P. Ceccanti B. 2011. Heavy metal fractionation and organic matter stabilization in sewage sludge treatment wetlands. Ecological Engineering 37(5): 771–778.

  • Pisulewska E. Poradowski R. Antonkiewicz J. Witkowicz R. 2009. The effect of variable mineral fertilization on yield and grain mineral composition of covered and naked oat cultivars. Journal of Elementology 14(4): 763–772.

  • Polish Soil Classification (Systematyka Gleb Polski) 2011. Roczniki Gleboznawcze – Soil Science Annual 62(3): 1–193 (in Polish with English summary).

  • Regulation 2015. Regulation of the Minister of the Natural Environment on municipal sewage sludge dated 6 February 2015. Journal of Laws of Poland Item 257.

  • Sager M. Hoesch J. 2006. Macro-and micro element levels in cereals grown in lower Austria. Journal of Central European Agriculture 6(4): 461–471.

  • Shaheen S.M. Shams M.S. Ibrahim S.M. Elbehiry F.A. Antoniadis V. Hooda P.S. 2014. Stabilization of sewage sludge by using various by-products: Effects on soil properties biomass production and bioavailability of copper and zinc. Water Air Soil Pollution 225(7): 1–13.

  • Singh R.P. Agrawal M. 2008. Potential benefits and risks of land application of sewage sludge. Waste Management 28(2): 347–358.

  • Statistical Yearbook of Agriculture. 2015. Central Statistical Office Warsaw: pp. 456 (in Polish).

  • Suchowilska E. Wiwart M. Kandler W. Krska R. 2012. A comparison of macro-and microelement concentrations in the whole grain of four Triticum species. Plant Soil Environment 58(3): 141–147.

  • Szabó L. Fodor L. 2006. Uptake of Microelements by Crops Grown on Heavy Metal–Amended Soil. Communications in Soil Science and Plant Analysis 37(15–20): 2679–2689.

  • Szatanik-Kloc A. Ambrożewicz-Nita A. 2015. Assessment of aluminium and copper contamination level in selected crops. Acta Agrophysica 22(4): 471–482.

  • Szoszkiewicz J. Znamirowski M. 1989. Zawartość mikroelementów w runi użytków zielonych Wielkopolski. Zeszyty Problemowe Postępów Nauk Rolniczych 325: 181–185.

  • Wei Y. Liu Y. 2005. Effects of sewage sludge compost application on crops and cropland in a 3-year field study. Chemosphere 59(9): 1257–1265.

  • Werle S. Wilk R.K. 2010. A review of methods for the thermal utilization of sewage sludge: The Polish perspective. Renewable Energy 35(9): 1914–1919.

  • Wieczorek J. 2013. Wartość nawozowa komunalnych osadów ściekowych oraz ich wpływ na właściwości fizykochemiczne i aktywność biologiczną gleby. Zeszyty Naukowe UR w Krakowie seria Rozprawy 503 380: pp. 120.

  • Witkowicz R. Antonkiewicz J. Pisulewska E. Bogocz D. 2015. The impact of agronomic factors on the content of selected microelements in naked oat (Avena sativa ver. nuda) grain. Ecological Chemistry and Engineering A 22(2): 239–250.

  • Witkowicz R. 2016. Wpływ zmian w składzie mineralnym ziarna owsa nagoziarnistego na realizację zalecanego lub wystarczaj ącego spożycia. Zeszyty Problemowe Postępu Nauk Rolniczych 584: 127–138.

  • Zeidan M.S. Mohamed M.F. Hamouda H.A. 2010. Effect of foliar fertilization of Fe Mn and Zn on wheat yield and quality in low sandy soils fertility. World Journal of Agricultural Sciences 6 6: 696–699.

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