Evaluation of Metals Bioavailability in Agricultural Soil Treated with Wood Ash

Monika Jakubus, Natalia Tatuśko

Abstract


In the present work, we aimed to study the effect of quantitative changes of micronutrients (Cu, Zn, Mn) in soil and plants caused by wood ash applied into the soil in increasing doses. A pot experiment with medium textured soil, white mustard as a test plant and six amendment treatments (doses of wood ash: 0, 1, 5, 10, 20, 30 Mg·ha-1) was performed. Total contents of Cu, Zn and Mn were determined in soil and plant samples. Single (DTPA and HCl) and sequential (BCR) extractions were used to evaluate the available amounts of metals and their distribution in fractions. A plant’s ability to accumulate metals from soils was estimated using the bioconcentration factor (BCF), which is defined as the ratio of metal concentration in the plants to that in soil. The increasing doses of wood ash increased total and available contents of trace elements, especially Cu and Mn. The distribution of metals among particular fractions depended mainly on their geochemical character. The highest content of Cu was found in the reducible and oxidisable fractions, whereas, the greatest amounts of Zn and Mn were in the exchangeable and reducible fractions, and the lowest in the oxidisable fraction. Despite small wood ash influence on metal distribution in the individual soil fractions, increasing doses of wood ash increased the amounts of Cu, Zn, Mn in easily soluble fractions, which are potentially available to plants. As a result of wood ash increasing doses application, the higher amounts of Cu, Zn and Mn in plant tissues were found. However, only in the case of Zn, the value of BCF indicated on such accumulation in the plants.

Keywords


wood ash, micronutrients, available amounts, single extraction, sequential analysis

Full Text:

PDF

References


Adamczeski, K., Matysiak, K., 2011. Klucz do określania faz rozwojowych roślin jednio dwuliściennych w skali BBCH (in Polish). Wyd. III uzupełnione. Instytut Ochrony Roślin – PIB, Poznań, pp. 114.

Bartoszewicz-Burczy, H., 2012. Potencjał i energetyczne wykorzystanie biomasy w krajach Europy Środkowej (in Polish). Z Prac Instytutu Energetyki: 860–866.

Brümmer, G., Gerth, J., Herms, U., 1986. Heavy metal species, mobility and availability in soils. Zeitschrift für Pflanzenernahrung und Bodenkunde, 149: 382–398.

Górecka H., Chojnacka K., Górecki H., 2006. The application of ICP-MS and ICP-OES in determination of micronutrients in wood ashes used as soil conditioners. Talanta, 70(5): 950–956.

Herms, U., 1982. Untersuchungen zur Schwermetallöslichkeit in kontaminierten Böden und kompostierten Siedlungsabällen in Abhägigkeit von Bodenreaktion (in German). Redoxbedingungen und Stoffbestand. Dissertation, Kiel, 110–133.

ISO – International Organization of Standardization, 1995. Soil quality – Extraction of trace elements soluble in aqua regia. ISO 11466, 1995(E).

IUSS Working Group WRB, 2007. World Reference Base for Soil Resources 2006, first update 2007. World Soil Resources Reports, 103. FAO, Rome.

Jakubus, M., 2004. Zmiany ilościowe manganu w glebie nawożonej osadem ściekowy (in Polish). Zeszyty Problemowe Postępów Nauk Rolniczych, 502: 805–811.

Jakubus, M., 2009. Zawartości Fe i Mn w glebie ekstrahowane roztworami o różnej sile jonowej podczas rozkładu kompostu (in Polish). Zeszyty Problemowe Postępów Nauk Rolniczych, 541: 121–131

Jakubus, M., 2012. Evaluation of compost by selected chemical and biological methods. Fresenius Environmental Bulletin, 21(11a): 3464–3472.

Jones, D.L., Quilliam, R.S., 2014. Metal contaminated biochar and wood ash negatively affect plant growth and soil quality after land application. Journal of Hazardous Materials, 276: 362–370.

Kabata-Pendias A., Pendias H., 1999. Biogeochemia pierwiastków śladowych (in Polish). PWN Warszawa, pp. 398.

Kajda-Szcześniak, M., 2014. Characteristics of ashes from fireplace. Archives of Waste Management and Environmental Protection, 16, 3: 73–78.

Kumpiene, J., Lagerkvist, A., Maurice, C., 2008. Stabilization of As, Cr, Cu, Pb and Zn in soil using amendments – a review. Waste Management, 28(1): 215–225.

Lindsay, W.L., 2001. Chemical Equilibira in Soils, 2nd ed. Wiley, Chichester Sussex.

Lucchini, P., Quilliam, R.S., DeLuca, T.H., Vamerali, T., Jones, D.L., 2014. Increased bioavailability of metals in two contrasting agricultural soils treated with waste wood-derived biochar and ash. Environmental Science and Pollution Research, 21(5): 3230–3240.

Mollon, L.C., Norton, G.J., Trakal, L., Moreno-Jimenez, E., Elouali, F.Z., Hough, R.L., Beesley, L., 2016. Mobility and toxicity of heavy metal(loid)s arising from contaminated wood ash application to a pasture grassland soil. Environmental Pollution, 218: 419–427.

Mossop, K.F., Davidson, Ch.M., 2003. Comparison of original and modified BCR sequential extraction procedures for the fractionation of copper, iron, lead, manganese and zinc in soils and sediments. Analitica Chemica Acta, 478(1): 111–118.

Nabeela, F., Murad, W., Khan, I., Mian, I. A., Rehman, H., Adnan, M., Azizullah, A., 2015. Effect of wood ash application on the morphological, physiological and biochemical parameters of Brassica napus L. Plant Physiology and Biochemistry, 95: 15–25.

Official Journal 2014, Pos. 1923. Waste Catalogue.

Official Journal 2015, Pos. 87. Waste Act of 2012.

Olsson, B.A., Åkerblom, S., Bishop, K., Eklöf, K., Ring, E., 2017. Does the harvest of logging residues and wood ash application affect the mobilization and bioavailability of trace metals?. Forest Ecology and Management, 383: 61–72.

Park, N.D., Rutherford, P.M., Thring, R.W., Helle, S.S., 2012. Wood pellet fly ash and bottom ash as an effective liming agent and nutrient source for rye grass (Lolium perenne L.) and oats (Avena sativa). Chemosphere, 86(4): 427–432.

Párraga-Aguado I., Álvarez-Rogel, J., González-Alcaraz, M.N., Conesa, H.N., 2017. Metal mobility assessment for the application of an urban organic waste amendment in two degraded semiarid soils. Journal of Geochemical Exploration, 173: 92–98.

Pérez-Esteban, J., Escolástico, C., Moliner Aramendia, A., Masaguer Rodríguez, A., Ruiz Fernández, J., 2014. Phytostabilization of metals in mine soils using Brassica juncea in combination with organic amendments. Plant and Soil, 377:97–109.

Rao, C.R. M., Sahuquillo, A., Lopez Sanchez, J.F., 2008. A review of the different methods applied in environmental geochemistry for single and sequential extraction of trace elements in soils and related materials. Water, Air, and Soil Pollution, 189: 291–333.

Shi, R., Li, J., Jiang, J., Mehmood, K., Liu, Y., Xu, R., Qian, W., 2016. Characteristics of biomass ashes from different materials and their ameliorative effects on acid soils. Journal of Environmental Sciences. In Press, Corrected Proof. http://dx.doi.org/10.1016/j.jes.2016.07.015

Sofianska E., Michailidis K., 2015. Chemical assessment and fractionation of some heavy metals and arsenic in agricultural soils of the mining affected Drama plain, Macedonia, northern Greece. Environmental Monitoring and Assessment, 187(3): 101. DOI: 10.1007/s10661-015-4335-7

Soumarẻ, M., Tack, F.M.G., Verloo, M.G., 2003. Characterisation of Malian and Belgian solid waste composts with respect to fertility and suitability for land application. Waste Management, 23: 517–522.

USDA, 2014. Kellog Soil Survey Laboratory Methods Manual. Soil Survey Investigations Report No. 42, version 5.0.

Whittle, A.J., Dyson, A.J., 2002. The fate of heavy metals in green waste composting. The Environmentalist 22: 13–21.

Zorpas, A.A., Loizidou, M., 2008. Sawdust and natural zeolite as a bulking agent for improving quality of a composting product from anaerobically stabilized sewage sludge. Bioresource Technology, 99: 7545–7552.

Zou, Z., Qiu, R., Zhang, W., Dong, H., Zhao, Z., Zhang, T., Wei, X., Cai, X. 2009. The study of operating variables in soil washing with EDTA. Environmental Pollution, 157: 229–236.




DOI: http://dx.doi.org/10.17951/pjss.2016.49.2.195
Date of publication: 2017-06-08 00:00:00
Date of submission: 2017-06-09 11:30:59


Statistics


Total abstract view - 1578
Downloads (from 2020-06-17) - PDF - 656

Indicators



Refbacks

  • There are currently no refbacks.


Copyright (c) 2017 Monika Jakubus, Natalia Tatuśko

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.